PDS_VERSION_ID = PDS3 RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 2880 FILE_RECORDS = 4649 ^HEADER = "PEP_0002699517_0X691_SCI_1.FIT" ^IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 12) ^EXTENSION_SPEC_PROTONS_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1756) ^EXTENSION_SPEC_PROTONS_IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 1757) ^EXTENSION_SPEC_HELIUM_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1777) ^EXTENSION_SPEC_HELIUM_IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 1778) ^EXTENSION_SPEC_HEAVIES_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1790) ^EXTENSION_SPEC_HEAVIES_IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 1792) ^EXTENSION_SPEC_ELECTRONS_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1820) ^EXTENSION_SPEC_ELECTRONS_IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 1821) ^EXTENSION_SPEC_LOWION_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1833) ^EXTENSION_SPEC_LOWION_IMAGE = ("PEP_0002699517_0X691_SCI_1.FIT", 1835) ^EXTENSION_FLUX_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 1867) ^EXTENSION_FLUX_TABLE = ("PEP_0002699517_0X691_SCI_1.FIT", 1924) ^EXTENSION_PHA_ELECTRON_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 4017) ^EXTENSION_PHA_ELECTRON_TABLE = ("PEP_0002699517_0X691_SCI_1.FIT", 4018) ^EXTENSION_PHA_LOW_ION_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 4233) ^EXTENSION_PHA_LOW_ION_TABLE = ("PEP_0002699517_0X691_SCI_1.FIT", 4234) ^EXTENSION_PHA_HIGH_ION_HEADER = ("PEP_0002699517_0X691_SCI_1.FIT", 4647) ^EXTENSION_PHA_HIGH_ION_TABLE = ("PEP_0002699517_0X691_SCI_1.FIT", 4649) NOTE = " - Earth Mean Equator and Vernal Equinox of J2000 is the inertial reference frame used to specify observational geometry. Geometric parameters are based on best available data at time of product creation. Refer to the SPICE archive for the most current observational geometry data. - All positions are relative to body centers - Target wrt S/C: X/Y/Z & Range - Light time corrected for light originating from N/A and received by S/C at observation midpoint. - Sun wrt Target - Light time corrected for light originating from Sun, reflected off of N/A, and received by S/C at observation midpoint - Sun wrt S/C - Light time corrected for light originating from Sun and received by S/C at observation midpoint - Earth wrt S/C - Light time corrected for light originating from Earth and received by S/C at observation midpoint - Solar phase angle (relative to inverted boresight) " MISSION_NAME = "NEW HORIZONS" DATA_SET_ID = "NH-X-PEPSSI-3-LAUNCH-V1.0" PRODUCT_ID = "PEP_0002699517_0X691_SCI_1" PRODUCER_INSTITUTION_NAME = "SOUTHWEST RESEARCH INSTITUTE" PRODUCT_TYPE = "EDR" SOFTWARE_NAME = "TOPDS 1.0" MISSION_PHASE_NAME = "POST-LAUNCH CHECKOUT" SEQUENCE_ID = "UNK" TARGET_NAME = "SOLAR WIND" PRODUCT_CREATION_TIME = 2007-12-06T04:48:07 START_TIME = 2006-02-19T23:59:59.323 STOP_TIME = 2006-02-20T23:59:59.323 SPACECRAFT_CLOCK_CNT_PARTITION = 1 SPACECRAFT_CLOCK_START_COUNT = "0002699517:00018" SPACECRAFT_CLOCK_STOP_COUNT = "0002785916:49982" INSTRUMENT_NAME="PLUTO ENERGETIC PARTICLE SPECTROMETER SCIENCE INVESTIGATION" INSTRUMENT_HOST_NAME = "NEW HORIZONS" INSTRUMENT_ID = "PEPSSI" TELEMETRY_APPLICATION_ID = "0x691" EXPOSURE_DURATION = 86400.000 FILTER_NAME = "N/A" DETECTOR_ID = "PEPSSI" DETECTOR_TYPE = "SOLID-STATE DETECTOR" INST_CMPRS_TYPE = "N/A" SC_TARGET_POSITION_VECTOR = ( "N/A" , "N/A" , "N/A" ) TARGET_CENTER_DISTANCE = "N/A" TARGET_SUN_POSITION_VECTOR = ( "N/A" , "N/A" , "N/A" ) SOLAR_DISTANCE = "N/A" SC_SUN_POSITION_VECTOR = ( 159651345.7273752 , -49393644.9420838 , -23255255.7827397 ) SPACECRAFT_SOLAR_DISTANCE = 168727861.5841117 SC_EARTH_POSITION_VECTOR = ( 29432602.2366051 , 14997971.1262602 , 4661441.0396220 ) SC_GEOCENTRIC_DISTANCE = 33360848.9833250 PHASE_ANGLE = 142.62542 QUATERNION = ( UNK , UNK , UNK , UNK ) QUATERNION_DESC = "QUAT_AXYZ_J2K_TO_INSTR.ASC" OBJECT = HEADER BYTES = 31680 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 11 DESCRIPTION = " FITS format defined in NASA/Science Office Standards Technology 100-1.0 " END_OBJECT = HEADER OBJECT = IMAGE DESCRIPTION = " FITS PDU PDU PHA spectrogram of weighted (Note 1) event counts between start and end times for each energy and TOF bin Note 1: See calibration documentation for explanation of weighting Additional information: Launch phase data was collected for checkout and calibration purposes. The entire launch phase is a BTI (Bad Time Interval). Axis 1 (LINE_SAMPLES): - Type = Energy <= Image X-axis is Energy - Unit = keV <= Energy units - Scale = 1.18000 <= Energy bin size Axis 2 (LINES): - Type = TOF <= Image Y-axis is Time of Flight - Unit = ns <= TOF units - Scale = 0.324300 <= TOF bin size " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1017 LINES = 617 OFFSET = 0.00000000000 SCALING_FACTOR = 1.00000000000 END_OBJECT = IMAGE OBJECT = EXTENSION_SPEC_PROTONS_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 1 FITS EDU name: SPEC_Protons " END_OBJECT = EXTENSION_SPEC_PROTONS_HEADER OBJECT = EXTENSION_SPEC_PROTONS_IMAGE DESCRIPTION = " FITS EDU number: 1 SPEC_Protons Protons spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 5 END_OBJECT = EXTENSION_SPEC_PROTONS_IMAGE OBJECT = EXTENSION_SPEC_HELIUM_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 2 FITS EDU name: SPEC_Helium " END_OBJECT = EXTENSION_SPEC_HELIUM_HEADER OBJECT = EXTENSION_SPEC_HELIUM_IMAGE DESCRIPTION = " FITS EDU number: 2 SPEC_Helium Helium spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 3 END_OBJECT = EXTENSION_SPEC_HELIUM_IMAGE OBJECT = EXTENSION_SPEC_HEAVIES_HEADER BYTES = 5760 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 2 DESCRIPTION = " This is the FITS header for FITS EDU number: 3 FITS EDU name: SPEC_Heavies " END_OBJECT = EXTENSION_SPEC_HEAVIES_HEADER OBJECT = EXTENSION_SPEC_HEAVIES_IMAGE DESCRIPTION = " FITS EDU number: 3 SPEC_Heavies Heavies spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 7 END_OBJECT = EXTENSION_SPEC_HEAVIES_IMAGE OBJECT = EXTENSION_SPEC_ELECTRONS_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 4 FITS EDU name: SPEC_Electrons " END_OBJECT = EXTENSION_SPEC_ELECTRONS_HEADER OBJECT = EXTENSION_SPEC_ELECTRONS_IMAGE DESCRIPTION = " FITS EDU number: 4 SPEC_Electrons Electrons spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See ERLO/ERHI# keywords for energy values - Scale = 1.00000 <= Energy axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 3 END_OBJECT = EXTENSION_SPEC_ELECTRONS_IMAGE OBJECT = EXTENSION_SPEC_LOWION_HEADER BYTES = 5760 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 2 DESCRIPTION = " This is the FITS header for FITS EDU number: 5 FITS EDU name: SPEC_LowIon " END_OBJECT = EXTENSION_SPEC_LOWION_HEADER OBJECT = EXTENSION_SPEC_LOWION_IMAGE DESCRIPTION = " FITS EDU number: 5 SPEC_LowIon TOF-only events spectrogram Axis 1 (LINE_SAMPLES): - Type = Time <= Fractional Hour of Day - Unit = Hours <= Time units - Scale = 0.016666667 <= Time Bin Width Axis 2 (LINES): - Type = Box <= Rate Box Index. See BOX# keyword for info. - Unit = [See columns] <= See TOFRLO/RHI# keywords for TOF Ranges - Scale = 1.00000 <= TOF axis is only an index " SAMPLE_BITS = 64 SAMPLE_TYPE = "IEEE_REAL" AXIS_ORDER_TYPE = "FIRST_INDEX_FASTEST" LINE_DISPLAY_DIRECTION = "UP" SAMPLE_DISPLAY_DIRECTION = "RIGHT" LINE_SAMPLES = 1440 LINES = 8 END_OBJECT = EXTENSION_SPEC_LOWION_IMAGE OBJECT = EXTENSION_FLUX_HEADER BYTES = 164160 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 57 DESCRIPTION = " This is the FITS header for FITS EDU number: 6 FITS EDU name: FLUX " END_OBJECT = EXTENSION_FLUX_HEADER OBJECT = EXTENSION_FLUX_TABLE INTERCHANGE_FORMAT = "BINARY" ROW_BYTES = 2692 ROWS = 2239 COLUMNS = 337 DESCRIPTION = " FITS EDU number: 6 FITS EDU name: FLUX Calibrated N2 Rate Data Additional information: Calibration Recipe: deltaE = EHi - ELo uncDeltaE2 = uncELo*uncELo + uncEHi*uncEHi calConstTerm = efficiency*geoFactor*deltaE uncConstTerm = uncEfficiency*uncEfficiency + uncGeo*uncGeo/(geoFactor*geoFactor) + uncDeltaE2/(deltaE*deltaE); calibratedFlux[i] = counts[i]/(accumTime[i]*calConstTerm) calibratedFluxUnc[i] = calibratedFlux[i] * sqrt(1.0/counts[i] + uncConstTerm) WARNING ACTUAL CALIBRATION VALUES ARE NOT AVAILABLE FOR THIS TIME PER CALIBRATION VALUES USED IN THIS FILE ARE DUMMY VALUES YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! Additional calibration information: Calibration constants used to convert from counts/s to energies or TOFs: CAL_E0 = -62.0 / Deposited Energy = E0 + E1*Raw Energy CAL_E1 = 1.18 / Deposited Energy = E0 + E1*Raw Energy CAL_T0 = 2.7228 / Deposited TOF = T0 + T1*Raw TOF CAL_T1 = 0.3243 / Deposited TOF = T0 + T1*Raw TOF " OBJECT = COLUMN NAME = "ET" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 1 DATA_TYPE = "IEEE_REAL" START_BYTE = 1 DESCRIPTION = " Ephemeris Time TDB seconds past the J200 Epoch 01.January, 2000 12:00:00 UTC " UNIT = "Seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 2 DATA_TYPE = "IEEE_REAL" START_BYTE = 9 DESCRIPTION = " Fractional Year (UTC). Use ET for accuracy! " UNIT = "Years" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DAY_OF_YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 3 DATA_TYPE = "IEEE_REAL" START_BYTE = 17 DESCRIPTION = " Fractional Day of Year (UTC). Use ET for accur " UNIT = "Days" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DT" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 4 DATA_TYPE = "MSB_INTEGER" START_BYTE = 25 DESCRIPTION = " Accumulation Time (s). " UNIT = "s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 5 DATA_TYPE = "IEEE_REAL" START_BYTE = 29 DESCRIPTION = " B01S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 6 DATA_TYPE = "IEEE_REAL" START_BYTE = 37 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC6 = 'Protons ' / assumed particle species ELO6 = 1.0 / Minimum channel energy keV ELOU6 = 0.0 / Uncertainty in minimum channel energy (keV) EHI6 = 2.0 / Maximum channel energy keV EHIU6 = 0.0 / Uncertainty in maximum channel energy (keV) GF6 = 1.0 / Geometry Factor (cm^2 sr) GFU6 = 0.0 / Uncertainty in the Geometry Factor EFF6 = 1.0 / Efficiency (geometric mean) EFFU6 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 7 DATA_TYPE = "IEEE_REAL" START_BYTE = 45 DESCRIPTION = " Combined uncertainty in B01S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 8 DATA_TYPE = "IEEE_REAL" START_BYTE = 53 DESCRIPTION = " B01S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 9 DATA_TYPE = "IEEE_REAL" START_BYTE = 61 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC9 = 'Protons ' / assumed particle species ELO9 = 1.0 / Minimum channel energy keV ELOU9 = 0.0 / Uncertainty in minimum channel energy (keV) EHI9 = 2.0 / Maximum channel energy keV EHIU9 = 0.0 / Uncertainty in maximum channel energy (keV) GF9 = 1.0 / Geometry Factor (cm^2 sr) GFU9 = 0.0 / Uncertainty in the Geometry Factor EFF9 = 1.0 / Efficiency (geometric mean) EFFU9 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 10 DATA_TYPE = "IEEE_REAL" START_BYTE = 69 DESCRIPTION = " Combined uncertainty in B01S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 11 DATA_TYPE = "IEEE_REAL" START_BYTE = 77 DESCRIPTION = " B01S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 12 DATA_TYPE = "IEEE_REAL" START_BYTE = 85 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC12 = 'Protons ' / assumed particle species ELO12 = 1.0 / Minimum channel energy keV ELOU12 = 0.0 / Uncertainty in minimum channel energy (keV) EHI12 = 2.0 / Maximum channel energy keV EHIU12 = 0.0 / Uncertainty in maximum channel energy (keV) GF12 = 1.0 / Geometry Factor (cm^2 sr) GFU12 = 0.0 / Uncertainty in the Geometry Factor EFF12 = 1.0 / Efficiency (geometric mean) EFFU12 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 13 DATA_TYPE = "IEEE_REAL" START_BYTE = 93 DESCRIPTION = " Combined uncertainty in B01S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 14 DATA_TYPE = "IEEE_REAL" START_BYTE = 101 DESCRIPTION = " B01S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 15 DATA_TYPE = "IEEE_REAL" START_BYTE = 109 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC15 = 'Protons ' / assumed particle species ELO15 = 1.0 / Minimum channel energy keV ELOU15 = 0.0 / Uncertainty in minimum channel energy (keV) EHI15 = 2.0 / Maximum channel energy keV EHIU15 = 0.0 / Uncertainty in maximum channel energy (keV) GF15 = 1.0 / Geometry Factor (cm^2 sr) GFU15 = 0.0 / Uncertainty in the Geometry Factor EFF15 = 1.0 / Efficiency (geometric mean) EFFU15 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 16 DATA_TYPE = "IEEE_REAL" START_BYTE = 117 DESCRIPTION = " Combined uncertainty in B01S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 17 DATA_TYPE = "IEEE_REAL" START_BYTE = 125 DESCRIPTION = " B01S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 18 DATA_TYPE = "IEEE_REAL" START_BYTE = 133 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC18 = 'Protons ' / assumed particle species ELO18 = 1.0 / Minimum channel energy keV ELOU18 = 0.0 / Uncertainty in minimum channel energy (keV) EHI18 = 2.0 / Maximum channel energy keV EHIU18 = 0.0 / Uncertainty in maximum channel energy (keV) GF18 = 1.0 / Geometry Factor (cm^2 sr) GFU18 = 0.0 / Uncertainty in the Geometry Factor EFF18 = 1.0 / Efficiency (geometric mean) EFFU18 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 19 DATA_TYPE = "IEEE_REAL" START_BYTE = 141 DESCRIPTION = " Combined uncertainty in B01S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 20 DATA_TYPE = "IEEE_REAL" START_BYTE = 149 DESCRIPTION = " B01S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 21 DATA_TYPE = "IEEE_REAL" START_BYTE = 157 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC21 = 'Protons ' / assumed particle species ELO21 = 1.0 / Minimum channel energy keV ELOU21 = 0.0 / Uncertainty in minimum channel energy (keV) EHI21 = 2.0 / Maximum channel energy keV EHIU21 = 0.0 / Uncertainty in maximum channel energy (keV) GF21 = 1.0 / Geometry Factor (cm^2 sr) GFU21 = 0.0 / Uncertainty in the Geometry Factor EFF21 = 1.0 / Efficiency (geometric mean) EFFU21 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B01S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 22 DATA_TYPE = "IEEE_REAL" START_BYTE = 165 DESCRIPTION = " Combined uncertainty in B01S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 23 DATA_TYPE = "IEEE_REAL" START_BYTE = 173 DESCRIPTION = " B02S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 24 DATA_TYPE = "IEEE_REAL" START_BYTE = 181 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC24 = 'Protons ' / assumed particle species ELO24 = 1.0 / Minimum channel energy keV ELOU24 = 0.0 / Uncertainty in minimum channel energy (keV) EHI24 = 2.0 / Maximum channel energy keV EHIU24 = 0.0 / Uncertainty in maximum channel energy (keV) GF24 = 1.0 / Geometry Factor (cm^2 sr) GFU24 = 0.0 / Uncertainty in the Geometry Factor EFF24 = 1.0 / Efficiency (geometric mean) EFFU24 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 25 DATA_TYPE = "IEEE_REAL" START_BYTE = 189 DESCRIPTION = " Combined uncertainty in B02S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 26 DATA_TYPE = "IEEE_REAL" START_BYTE = 197 DESCRIPTION = " B02S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 27 DATA_TYPE = "IEEE_REAL" START_BYTE = 205 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC27 = 'Protons ' / assumed particle species ELO27 = 1.0 / Minimum channel energy keV ELOU27 = 0.0 / Uncertainty in minimum channel energy (keV) EHI27 = 2.0 / Maximum channel energy keV EHIU27 = 0.0 / Uncertainty in maximum channel energy (keV) GF27 = 1.0 / Geometry Factor (cm^2 sr) GFU27 = 0.0 / Uncertainty in the Geometry Factor EFF27 = 1.0 / Efficiency (geometric mean) EFFU27 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 28 DATA_TYPE = "IEEE_REAL" START_BYTE = 213 DESCRIPTION = " Combined uncertainty in B02S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 29 DATA_TYPE = "IEEE_REAL" START_BYTE = 221 DESCRIPTION = " B02S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 30 DATA_TYPE = "IEEE_REAL" START_BYTE = 229 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC30 = 'Protons ' / assumed particle species ELO30 = 1.0 / Minimum channel energy keV ELOU30 = 0.0 / Uncertainty in minimum channel energy (keV) EHI30 = 2.0 / Maximum channel energy keV EHIU30 = 0.0 / Uncertainty in maximum channel energy (keV) GF30 = 1.0 / Geometry Factor (cm^2 sr) GFU30 = 0.0 / Uncertainty in the Geometry Factor EFF30 = 1.0 / Efficiency (geometric mean) EFFU30 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 31 DATA_TYPE = "IEEE_REAL" START_BYTE = 237 DESCRIPTION = " Combined uncertainty in B02S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 32 DATA_TYPE = "IEEE_REAL" START_BYTE = 245 DESCRIPTION = " B02S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 33 DATA_TYPE = "IEEE_REAL" START_BYTE = 253 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC33 = 'Protons ' / assumed particle species ELO33 = 1.0 / Minimum channel energy keV ELOU33 = 0.0 / Uncertainty in minimum channel energy (keV) EHI33 = 2.0 / Maximum channel energy keV EHIU33 = 0.0 / Uncertainty in maximum channel energy (keV) GF33 = 1.0 / Geometry Factor (cm^2 sr) GFU33 = 0.0 / Uncertainty in the Geometry Factor EFF33 = 1.0 / Efficiency (geometric mean) EFFU33 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 34 DATA_TYPE = "IEEE_REAL" START_BYTE = 261 DESCRIPTION = " Combined uncertainty in B02S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 35 DATA_TYPE = "IEEE_REAL" START_BYTE = 269 DESCRIPTION = " B02S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 36 DATA_TYPE = "IEEE_REAL" START_BYTE = 277 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC36 = 'Protons ' / assumed particle species ELO36 = 1.0 / Minimum channel energy keV ELOU36 = 0.0 / Uncertainty in minimum channel energy (keV) EHI36 = 2.0 / Maximum channel energy keV EHIU36 = 0.0 / Uncertainty in maximum channel energy (keV) GF36 = 1.0 / Geometry Factor (cm^2 sr) GFU36 = 0.0 / Uncertainty in the Geometry Factor EFF36 = 1.0 / Efficiency (geometric mean) EFFU36 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 37 DATA_TYPE = "IEEE_REAL" START_BYTE = 285 DESCRIPTION = " Combined uncertainty in B02S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 38 DATA_TYPE = "IEEE_REAL" START_BYTE = 293 DESCRIPTION = " B02S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 39 DATA_TYPE = "IEEE_REAL" START_BYTE = 301 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC39 = 'Protons ' / assumed particle species ELO39 = 1.0 / Minimum channel energy keV ELOU39 = 0.0 / Uncertainty in minimum channel energy (keV) EHI39 = 2.0 / Maximum channel energy keV EHIU39 = 0.0 / Uncertainty in maximum channel energy (keV) GF39 = 1.0 / Geometry Factor (cm^2 sr) GFU39 = 0.0 / Uncertainty in the Geometry Factor EFF39 = 1.0 / Efficiency (geometric mean) EFFU39 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B02S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 40 DATA_TYPE = "IEEE_REAL" START_BYTE = 309 DESCRIPTION = " Combined uncertainty in B02S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 41 DATA_TYPE = "IEEE_REAL" START_BYTE = 317 DESCRIPTION = " B03S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 42 DATA_TYPE = "IEEE_REAL" START_BYTE = 325 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC42 = 'Protons ' / assumed particle species ELO42 = 1.0 / Minimum channel energy keV ELOU42 = 0.0 / Uncertainty in minimum channel energy (keV) EHI42 = 2.0 / Maximum channel energy keV EHIU42 = 0.0 / Uncertainty in maximum channel energy (keV) GF42 = 1.0 / Geometry Factor (cm^2 sr) GFU42 = 0.0 / Uncertainty in the Geometry Factor EFF42 = 1.0 / Efficiency (geometric mean) EFFU42 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 43 DATA_TYPE = "IEEE_REAL" START_BYTE = 333 DESCRIPTION = " Combined uncertainty in B03S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 44 DATA_TYPE = "IEEE_REAL" START_BYTE = 341 DESCRIPTION = " B03S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 45 DATA_TYPE = "IEEE_REAL" START_BYTE = 349 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC45 = 'Protons ' / assumed particle species ELO45 = 1.0 / Minimum channel energy keV ELOU45 = 0.0 / Uncertainty in minimum channel energy (keV) EHI45 = 2.0 / Maximum channel energy keV EHIU45 = 0.0 / Uncertainty in maximum channel energy (keV) GF45 = 1.0 / Geometry Factor (cm^2 sr) GFU45 = 0.0 / Uncertainty in the Geometry Factor EFF45 = 1.0 / Efficiency (geometric mean) EFFU45 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 46 DATA_TYPE = "IEEE_REAL" START_BYTE = 357 DESCRIPTION = " Combined uncertainty in B03S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 47 DATA_TYPE = "IEEE_REAL" START_BYTE = 365 DESCRIPTION = " B03S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 48 DATA_TYPE = "IEEE_REAL" START_BYTE = 373 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC48 = 'Protons ' / assumed particle species ELO48 = 1.0 / Minimum channel energy keV ELOU48 = 0.0 / Uncertainty in minimum channel energy (keV) EHI48 = 2.0 / Maximum channel energy keV EHIU48 = 0.0 / Uncertainty in maximum channel energy (keV) GF48 = 1.0 / Geometry Factor (cm^2 sr) GFU48 = 0.0 / Uncertainty in the Geometry Factor EFF48 = 1.0 / Efficiency (geometric mean) EFFU48 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 49 DATA_TYPE = "IEEE_REAL" START_BYTE = 381 DESCRIPTION = " Combined uncertainty in B03S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 50 DATA_TYPE = "IEEE_REAL" START_BYTE = 389 DESCRIPTION = " B03S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 51 DATA_TYPE = "IEEE_REAL" START_BYTE = 397 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC51 = 'Protons ' / assumed particle species ELO51 = 1.0 / Minimum channel energy keV ELOU51 = 0.0 / Uncertainty in minimum channel energy (keV) EHI51 = 2.0 / Maximum channel energy keV EHIU51 = 0.0 / Uncertainty in maximum channel energy (keV) GF51 = 1.0 / Geometry Factor (cm^2 sr) GFU51 = 0.0 / Uncertainty in the Geometry Factor EFF51 = 1.0 / Efficiency (geometric mean) EFFU51 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 52 DATA_TYPE = "IEEE_REAL" START_BYTE = 405 DESCRIPTION = " Combined uncertainty in B03S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 53 DATA_TYPE = "IEEE_REAL" START_BYTE = 413 DESCRIPTION = " B03S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 54 DATA_TYPE = "IEEE_REAL" START_BYTE = 421 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC54 = 'Protons ' / assumed particle species ELO54 = 1.0 / Minimum channel energy keV ELOU54 = 0.0 / Uncertainty in minimum channel energy (keV) EHI54 = 2.0 / Maximum channel energy keV EHIU54 = 0.0 / Uncertainty in maximum channel energy (keV) GF54 = 1.0 / Geometry Factor (cm^2 sr) GFU54 = 0.0 / Uncertainty in the Geometry Factor EFF54 = 1.0 / Efficiency (geometric mean) EFFU54 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 55 DATA_TYPE = "IEEE_REAL" START_BYTE = 429 DESCRIPTION = " Combined uncertainty in B03S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 56 DATA_TYPE = "IEEE_REAL" START_BYTE = 437 DESCRIPTION = " B03S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 57 DATA_TYPE = "IEEE_REAL" START_BYTE = 445 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC57 = 'Protons ' / assumed particle species ELO57 = 1.0 / Minimum channel energy keV ELOU57 = 0.0 / Uncertainty in minimum channel energy (keV) EHI57 = 2.0 / Maximum channel energy keV EHIU57 = 0.0 / Uncertainty in maximum channel energy (keV) GF57 = 1.0 / Geometry Factor (cm^2 sr) GFU57 = 0.0 / Uncertainty in the Geometry Factor EFF57 = 1.0 / Efficiency (geometric mean) EFFU57 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B03S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 58 DATA_TYPE = "IEEE_REAL" START_BYTE = 453 DESCRIPTION = " Combined uncertainty in B03S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 59 DATA_TYPE = "IEEE_REAL" START_BYTE = 461 DESCRIPTION = " B04S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 60 DATA_TYPE = "IEEE_REAL" START_BYTE = 469 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC60 = 'Protons ' / assumed particle species ELO60 = 1.0 / Minimum channel energy keV ELOU60 = 0.0 / Uncertainty in minimum channel energy (keV) EHI60 = 2.0 / Maximum channel energy keV EHIU60 = 0.0 / Uncertainty in maximum channel energy (keV) GF60 = 1.0 / Geometry Factor (cm^2 sr) GFU60 = 0.0 / Uncertainty in the Geometry Factor EFF60 = 1.0 / Efficiency (geometric mean) EFFU60 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 61 DATA_TYPE = "IEEE_REAL" START_BYTE = 477 DESCRIPTION = " Combined uncertainty in B04S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 62 DATA_TYPE = "IEEE_REAL" START_BYTE = 485 DESCRIPTION = " B04S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 63 DATA_TYPE = "IEEE_REAL" START_BYTE = 493 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC63 = 'Protons ' / assumed particle species ELO63 = 1.0 / Minimum channel energy keV ELOU63 = 0.0 / Uncertainty in minimum channel energy (keV) EHI63 = 2.0 / Maximum channel energy keV EHIU63 = 0.0 / Uncertainty in maximum channel energy (keV) GF63 = 1.0 / Geometry Factor (cm^2 sr) GFU63 = 0.0 / Uncertainty in the Geometry Factor EFF63 = 1.0 / Efficiency (geometric mean) EFFU63 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 64 DATA_TYPE = "IEEE_REAL" START_BYTE = 501 DESCRIPTION = " Combined uncertainty in B04S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 65 DATA_TYPE = "IEEE_REAL" START_BYTE = 509 DESCRIPTION = " B04S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 66 DATA_TYPE = "IEEE_REAL" START_BYTE = 517 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC66 = 'Protons ' / assumed particle species ELO66 = 1.0 / Minimum channel energy keV ELOU66 = 0.0 / Uncertainty in minimum channel energy (keV) EHI66 = 2.0 / Maximum channel energy keV EHIU66 = 0.0 / Uncertainty in maximum channel energy (keV) GF66 = 1.0 / Geometry Factor (cm^2 sr) GFU66 = 0.0 / Uncertainty in the Geometry Factor EFF66 = 1.0 / Efficiency (geometric mean) EFFU66 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 67 DATA_TYPE = "IEEE_REAL" START_BYTE = 525 DESCRIPTION = " Combined uncertainty in B04S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 68 DATA_TYPE = "IEEE_REAL" START_BYTE = 533 DESCRIPTION = " B04S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 69 DATA_TYPE = "IEEE_REAL" START_BYTE = 541 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC69 = 'Protons ' / assumed particle species ELO69 = 1.0 / Minimum channel energy keV ELOU69 = 0.0 / Uncertainty in minimum channel energy (keV) EHI69 = 2.0 / Maximum channel energy keV EHIU69 = 0.0 / Uncertainty in maximum channel energy (keV) GF69 = 1.0 / Geometry Factor (cm^2 sr) GFU69 = 0.0 / Uncertainty in the Geometry Factor EFF69 = 1.0 / Efficiency (geometric mean) EFFU69 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 70 DATA_TYPE = "IEEE_REAL" START_BYTE = 549 DESCRIPTION = " Combined uncertainty in B04S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 71 DATA_TYPE = "IEEE_REAL" START_BYTE = 557 DESCRIPTION = " B04S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 72 DATA_TYPE = "IEEE_REAL" START_BYTE = 565 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC72 = 'Protons ' / assumed particle species ELO72 = 1.0 / Minimum channel energy keV ELOU72 = 0.0 / Uncertainty in minimum channel energy (keV) EHI72 = 2.0 / Maximum channel energy keV EHIU72 = 0.0 / Uncertainty in maximum channel energy (keV) GF72 = 1.0 / Geometry Factor (cm^2 sr) GFU72 = 0.0 / Uncertainty in the Geometry Factor EFF72 = 1.0 / Efficiency (geometric mean) EFFU72 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 73 DATA_TYPE = "IEEE_REAL" START_BYTE = 573 DESCRIPTION = " Combined uncertainty in B04S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 74 DATA_TYPE = "IEEE_REAL" START_BYTE = 581 DESCRIPTION = " B04S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 75 DATA_TYPE = "IEEE_REAL" START_BYTE = 589 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC75 = 'Protons ' / assumed particle species ELO75 = 1.0 / Minimum channel energy keV ELOU75 = 0.0 / Uncertainty in minimum channel energy (keV) EHI75 = 2.0 / Maximum channel energy keV EHIU75 = 0.0 / Uncertainty in maximum channel energy (keV) GF75 = 1.0 / Geometry Factor (cm^2 sr) GFU75 = 0.0 / Uncertainty in the Geometry Factor EFF75 = 1.0 / Efficiency (geometric mean) EFFU75 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B04S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 76 DATA_TYPE = "IEEE_REAL" START_BYTE = 597 DESCRIPTION = " Combined uncertainty in B04S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 77 DATA_TYPE = "IEEE_REAL" START_BYTE = 605 DESCRIPTION = " B05S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 78 DATA_TYPE = "IEEE_REAL" START_BYTE = 613 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC78 = 'Protons ' / assumed particle species ELO78 = 1.0 / Minimum channel energy keV ELOU78 = 0.0 / Uncertainty in minimum channel energy (keV) EHI78 = 2.0 / Maximum channel energy keV EHIU78 = 0.0 / Uncertainty in maximum channel energy (keV) GF78 = 1.0 / Geometry Factor (cm^2 sr) GFU78 = 0.0 / Uncertainty in the Geometry Factor EFF78 = 1.0 / Efficiency (geometric mean) EFFU78 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 79 DATA_TYPE = "IEEE_REAL" START_BYTE = 621 DESCRIPTION = " Combined uncertainty in B05S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 80 DATA_TYPE = "IEEE_REAL" START_BYTE = 629 DESCRIPTION = " B05S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 81 DATA_TYPE = "IEEE_REAL" START_BYTE = 637 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC81 = 'Protons ' / assumed particle species ELO81 = 1.0 / Minimum channel energy keV ELOU81 = 0.0 / Uncertainty in minimum channel energy (keV) EHI81 = 2.0 / Maximum channel energy keV EHIU81 = 0.0 / Uncertainty in maximum channel energy (keV) GF81 = 1.0 / Geometry Factor (cm^2 sr) GFU81 = 0.0 / Uncertainty in the Geometry Factor EFF81 = 1.0 / Efficiency (geometric mean) EFFU81 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 82 DATA_TYPE = "IEEE_REAL" START_BYTE = 645 DESCRIPTION = " Combined uncertainty in B05S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 83 DATA_TYPE = "IEEE_REAL" START_BYTE = 653 DESCRIPTION = " B05S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 84 DATA_TYPE = "IEEE_REAL" START_BYTE = 661 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC84 = 'Protons ' / assumed particle species ELO84 = 1.0 / Minimum channel energy keV ELOU84 = 0.0 / Uncertainty in minimum channel energy (keV) EHI84 = 2.0 / Maximum channel energy keV EHIU84 = 0.0 / Uncertainty in maximum channel energy (keV) GF84 = 1.0 / Geometry Factor (cm^2 sr) GFU84 = 0.0 / Uncertainty in the Geometry Factor EFF84 = 1.0 / Efficiency (geometric mean) EFFU84 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 85 DATA_TYPE = "IEEE_REAL" START_BYTE = 669 DESCRIPTION = " Combined uncertainty in B05S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 86 DATA_TYPE = "IEEE_REAL" START_BYTE = 677 DESCRIPTION = " B05S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 87 DATA_TYPE = "IEEE_REAL" START_BYTE = 685 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC87 = 'Protons ' / assumed particle species ELO87 = 1.0 / Minimum channel energy keV ELOU87 = 0.0 / Uncertainty in minimum channel energy (keV) EHI87 = 2.0 / Maximum channel energy keV EHIU87 = 0.0 / Uncertainty in maximum channel energy (keV) GF87 = 1.0 / Geometry Factor (cm^2 sr) GFU87 = 0.0 / Uncertainty in the Geometry Factor EFF87 = 1.0 / Efficiency (geometric mean) EFFU87 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 88 DATA_TYPE = "IEEE_REAL" START_BYTE = 693 DESCRIPTION = " Combined uncertainty in B05S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 89 DATA_TYPE = "IEEE_REAL" START_BYTE = 701 DESCRIPTION = " B05S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 90 DATA_TYPE = "IEEE_REAL" START_BYTE = 709 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC90 = 'Protons ' / assumed particle species ELO90 = 1.0 / Minimum channel energy keV ELOU90 = 0.0 / Uncertainty in minimum channel energy (keV) EHI90 = 2.0 / Maximum channel energy keV EHIU90 = 0.0 / Uncertainty in maximum channel energy (keV) GF90 = 1.0 / Geometry Factor (cm^2 sr) GFU90 = 0.0 / Uncertainty in the Geometry Factor EFF90 = 1.0 / Efficiency (geometric mean) EFFU90 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 91 DATA_TYPE = "IEEE_REAL" START_BYTE = 717 DESCRIPTION = " Combined uncertainty in B05S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 92 DATA_TYPE = "IEEE_REAL" START_BYTE = 725 DESCRIPTION = " B05S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 93 DATA_TYPE = "IEEE_REAL" START_BYTE = 733 DESCRIPTION = " Protons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC93 = 'Protons ' / assumed particle species ELO93 = 1.0 / Minimum channel energy keV ELOU93 = 0.0 / Uncertainty in minimum channel energy (keV) EHI93 = 2.0 / Maximum channel energy keV EHIU93 = 0.0 / Uncertainty in maximum channel energy (keV) GF93 = 1.0 / Geometry Factor (cm^2 sr) GFU93 = 0.0 / Uncertainty in the Geometry Factor EFF93 = 1.0 / Efficiency (geometric mean) EFFU93 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B05S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 94 DATA_TYPE = "IEEE_REAL" START_BYTE = 741 DESCRIPTION = " Combined uncertainty in B05S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 95 DATA_TYPE = "IEEE_REAL" START_BYTE = 749 DESCRIPTION = " B06S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 96 DATA_TYPE = "IEEE_REAL" START_BYTE = 757 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC96 = 'Helium ' / assumed particle species ELO96 = 1.0 / Minimum channel energy keV ELOU96 = 0.0 / Uncertainty in minimum channel energy (keV) EHI96 = 2.0 / Maximum channel energy keV EHIU96 = 0.0 / Uncertainty in maximum channel energy (keV) GF96 = 1.0 / Geometry Factor (cm^2 sr) GFU96 = 0.0 / Uncertainty in the Geometry Factor EFF96 = 1.0 / Efficiency (geometric mean) EFFU96 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 97 DATA_TYPE = "IEEE_REAL" START_BYTE = 765 DESCRIPTION = " Combined uncertainty in B06S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 98 DATA_TYPE = "IEEE_REAL" START_BYTE = 773 DESCRIPTION = " B06S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 99 DATA_TYPE = "IEEE_REAL" START_BYTE = 781 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC99 = 'Helium ' / assumed particle species ELO99 = 1.0 / Minimum channel energy keV ELOU99 = 0.0 / Uncertainty in minimum channel energy (keV) EHI99 = 2.0 / Maximum channel energy keV EHIU99 = 0.0 / Uncertainty in maximum channel energy (keV) GF99 = 1.0 / Geometry Factor (cm^2 sr) GFU99 = 0.0 / Uncertainty in the Geometry Factor EFF99 = 1.0 / Efficiency (geometric mean) EFFU99 = 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 100 DATA_TYPE = "IEEE_REAL" START_BYTE = 789 DESCRIPTION = " Combined uncertainty in B06S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 101 DATA_TYPE = "IEEE_REAL" START_BYTE = 797 DESCRIPTION = " B06S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 102 DATA_TYPE = "IEEE_REAL" START_BYTE = 805 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC102= 'Helium ' / assumed particle species ELO102 = 1.0 / Minimum channel energy keV ELOU102= 0.0 / Uncertainty in minimum channel energy (keV) EHI102 = 2.0 / Maximum channel energy keV EHIU102= 0.0 / Uncertainty in maximum channel energy (keV) GF102 = 1.0 / Geometry Factor (cm^2 sr) GFU102 = 0.0 / Uncertainty in the Geometry Factor EFF102 = 1.0 / Efficiency (geometric mean) EFFU102= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 103 DATA_TYPE = "IEEE_REAL" START_BYTE = 813 DESCRIPTION = " Combined uncertainty in B06S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 104 DATA_TYPE = "IEEE_REAL" START_BYTE = 821 DESCRIPTION = " B06S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 105 DATA_TYPE = "IEEE_REAL" START_BYTE = 829 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC105= 'Helium ' / assumed particle species ELO105 = 1.0 / Minimum channel energy keV ELOU105= 0.0 / Uncertainty in minimum channel energy (keV) EHI105 = 2.0 / Maximum channel energy keV EHIU105= 0.0 / Uncertainty in maximum channel energy (keV) GF105 = 1.0 / Geometry Factor (cm^2 sr) GFU105 = 0.0 / Uncertainty in the Geometry Factor EFF105 = 1.0 / Efficiency (geometric mean) EFFU105= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 106 DATA_TYPE = "IEEE_REAL" START_BYTE = 837 DESCRIPTION = " Combined uncertainty in B06S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 107 DATA_TYPE = "IEEE_REAL" START_BYTE = 845 DESCRIPTION = " B06S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 108 DATA_TYPE = "IEEE_REAL" START_BYTE = 853 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC108= 'Helium ' / assumed particle species ELO108 = 1.0 / Minimum channel energy keV ELOU108= 0.0 / Uncertainty in minimum channel energy (keV) EHI108 = 2.0 / Maximum channel energy keV EHIU108= 0.0 / Uncertainty in maximum channel energy (keV) GF108 = 1.0 / Geometry Factor (cm^2 sr) GFU108 = 0.0 / Uncertainty in the Geometry Factor EFF108 = 1.0 / Efficiency (geometric mean) EFFU108= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 109 DATA_TYPE = "IEEE_REAL" START_BYTE = 861 DESCRIPTION = " Combined uncertainty in B06S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 110 DATA_TYPE = "IEEE_REAL" START_BYTE = 869 DESCRIPTION = " B06S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 111 DATA_TYPE = "IEEE_REAL" START_BYTE = 877 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC111= 'Helium ' / assumed particle species ELO111 = 1.0 / Minimum channel energy keV ELOU111= 0.0 / Uncertainty in minimum channel energy (keV) EHI111 = 2.0 / Maximum channel energy keV EHIU111= 0.0 / Uncertainty in maximum channel energy (keV) GF111 = 1.0 / Geometry Factor (cm^2 sr) GFU111 = 0.0 / Uncertainty in the Geometry Factor EFF111 = 1.0 / Efficiency (geometric mean) EFFU111= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B06S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 112 DATA_TYPE = "IEEE_REAL" START_BYTE = 885 DESCRIPTION = " Combined uncertainty in B06S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 113 DATA_TYPE = "IEEE_REAL" START_BYTE = 893 DESCRIPTION = " B07S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 114 DATA_TYPE = "IEEE_REAL" START_BYTE = 901 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC114= 'Helium ' / assumed particle species ELO114 = 1.0 / Minimum channel energy keV ELOU114= 0.0 / Uncertainty in minimum channel energy (keV) EHI114 = 2.0 / Maximum channel energy keV EHIU114= 0.0 / Uncertainty in maximum channel energy (keV) GF114 = 1.0 / Geometry Factor (cm^2 sr) GFU114 = 0.0 / Uncertainty in the Geometry Factor EFF114 = 1.0 / Efficiency (geometric mean) EFFU114= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 115 DATA_TYPE = "IEEE_REAL" START_BYTE = 909 DESCRIPTION = " Combined uncertainty in B07S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 116 DATA_TYPE = "IEEE_REAL" START_BYTE = 917 DESCRIPTION = " B07S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 117 DATA_TYPE = "IEEE_REAL" START_BYTE = 925 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC117= 'Helium ' / assumed particle species ELO117 = 1.0 / Minimum channel energy keV ELOU117= 0.0 / Uncertainty in minimum channel energy (keV) EHI117 = 2.0 / Maximum channel energy keV EHIU117= 0.0 / Uncertainty in maximum channel energy (keV) GF117 = 1.0 / Geometry Factor (cm^2 sr) GFU117 = 0.0 / Uncertainty in the Geometry Factor EFF117 = 1.0 / Efficiency (geometric mean) EFFU117= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 118 DATA_TYPE = "IEEE_REAL" START_BYTE = 933 DESCRIPTION = " Combined uncertainty in B07S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 119 DATA_TYPE = "IEEE_REAL" START_BYTE = 941 DESCRIPTION = " B07S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 120 DATA_TYPE = "IEEE_REAL" START_BYTE = 949 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC120= 'Helium ' / assumed particle species ELO120 = 1.0 / Minimum channel energy keV ELOU120= 0.0 / Uncertainty in minimum channel energy (keV) EHI120 = 2.0 / Maximum channel energy keV EHIU120= 0.0 / Uncertainty in maximum channel energy (keV) GF120 = 1.0 / Geometry Factor (cm^2 sr) GFU120 = 0.0 / Uncertainty in the Geometry Factor EFF120 = 1.0 / Efficiency (geometric mean) EFFU120= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 121 DATA_TYPE = "IEEE_REAL" START_BYTE = 957 DESCRIPTION = " Combined uncertainty in B07S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 122 DATA_TYPE = "IEEE_REAL" START_BYTE = 965 DESCRIPTION = " B07S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 123 DATA_TYPE = "IEEE_REAL" START_BYTE = 973 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC123= 'Helium ' / assumed particle species ELO123 = 1.0 / Minimum channel energy keV ELOU123= 0.0 / Uncertainty in minimum channel energy (keV) EHI123 = 2.0 / Maximum channel energy keV EHIU123= 0.0 / Uncertainty in maximum channel energy (keV) GF123 = 1.0 / Geometry Factor (cm^2 sr) GFU123 = 0.0 / Uncertainty in the Geometry Factor EFF123 = 1.0 / Efficiency (geometric mean) EFFU123= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 124 DATA_TYPE = "IEEE_REAL" START_BYTE = 981 DESCRIPTION = " Combined uncertainty in B07S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 125 DATA_TYPE = "IEEE_REAL" START_BYTE = 989 DESCRIPTION = " B07S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 126 DATA_TYPE = "IEEE_REAL" START_BYTE = 997 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC126= 'Helium ' / assumed particle species ELO126 = 1.0 / Minimum channel energy keV ELOU126= 0.0 / Uncertainty in minimum channel energy (keV) EHI126 = 2.0 / Maximum channel energy keV EHIU126= 0.0 / Uncertainty in maximum channel energy (keV) GF126 = 1.0 / Geometry Factor (cm^2 sr) GFU126 = 0.0 / Uncertainty in the Geometry Factor EFF126 = 1.0 / Efficiency (geometric mean) EFFU126= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 127 DATA_TYPE = "IEEE_REAL" START_BYTE = 1005 DESCRIPTION = " Combined uncertainty in B07S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 128 DATA_TYPE = "IEEE_REAL" START_BYTE = 1013 DESCRIPTION = " B07S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 129 DATA_TYPE = "IEEE_REAL" START_BYTE = 1021 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC129= 'Helium ' / assumed particle species ELO129 = 1.0 / Minimum channel energy keV ELOU129= 0.0 / Uncertainty in minimum channel energy (keV) EHI129 = 2.0 / Maximum channel energy keV EHIU129= 0.0 / Uncertainty in maximum channel energy (keV) GF129 = 1.0 / Geometry Factor (cm^2 sr) GFU129 = 0.0 / Uncertainty in the Geometry Factor EFF129 = 1.0 / Efficiency (geometric mean) EFFU129= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B07S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 130 DATA_TYPE = "IEEE_REAL" START_BYTE = 1029 DESCRIPTION = " Combined uncertainty in B07S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 131 DATA_TYPE = "IEEE_REAL" START_BYTE = 1037 DESCRIPTION = " B08S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 132 DATA_TYPE = "IEEE_REAL" START_BYTE = 1045 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC132= 'Helium ' / assumed particle species ELO132 = 1.0 / Minimum channel energy keV ELOU132= 0.0 / Uncertainty in minimum channel energy (keV) EHI132 = 2.0 / Maximum channel energy keV EHIU132= 0.0 / Uncertainty in maximum channel energy (keV) GF132 = 1.0 / Geometry Factor (cm^2 sr) GFU132 = 0.0 / Uncertainty in the Geometry Factor EFF132 = 1.0 / Efficiency (geometric mean) EFFU132= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 133 DATA_TYPE = "IEEE_REAL" START_BYTE = 1053 DESCRIPTION = " Combined uncertainty in B08S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 134 DATA_TYPE = "IEEE_REAL" START_BYTE = 1061 DESCRIPTION = " B08S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 135 DATA_TYPE = "IEEE_REAL" START_BYTE = 1069 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC135= 'Helium ' / assumed particle species ELO135 = 1.0 / Minimum channel energy keV ELOU135= 0.0 / Uncertainty in minimum channel energy (keV) EHI135 = 2.0 / Maximum channel energy keV EHIU135= 0.0 / Uncertainty in maximum channel energy (keV) GF135 = 1.0 / Geometry Factor (cm^2 sr) GFU135 = 0.0 / Uncertainty in the Geometry Factor EFF135 = 1.0 / Efficiency (geometric mean) EFFU135= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 136 DATA_TYPE = "IEEE_REAL" START_BYTE = 1077 DESCRIPTION = " Combined uncertainty in B08S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 137 DATA_TYPE = "IEEE_REAL" START_BYTE = 1085 DESCRIPTION = " B08S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 138 DATA_TYPE = "IEEE_REAL" START_BYTE = 1093 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC138= 'Helium ' / assumed particle species ELO138 = 1.0 / Minimum channel energy keV ELOU138= 0.0 / Uncertainty in minimum channel energy (keV) EHI138 = 2.0 / Maximum channel energy keV EHIU138= 0.0 / Uncertainty in maximum channel energy (keV) GF138 = 1.0 / Geometry Factor (cm^2 sr) GFU138 = 0.0 / Uncertainty in the Geometry Factor EFF138 = 1.0 / Efficiency (geometric mean) EFFU138= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 139 DATA_TYPE = "IEEE_REAL" START_BYTE = 1101 DESCRIPTION = " Combined uncertainty in B08S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 140 DATA_TYPE = "IEEE_REAL" START_BYTE = 1109 DESCRIPTION = " B08S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 141 DATA_TYPE = "IEEE_REAL" START_BYTE = 1117 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC141= 'Helium ' / assumed particle species ELO141 = 1.0 / Minimum channel energy keV ELOU141= 0.0 / Uncertainty in minimum channel energy (keV) EHI141 = 2.0 / Maximum channel energy keV EHIU141= 0.0 / Uncertainty in maximum channel energy (keV) GF141 = 1.0 / Geometry Factor (cm^2 sr) GFU141 = 0.0 / Uncertainty in the Geometry Factor EFF141 = 1.0 / Efficiency (geometric mean) EFFU141= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 142 DATA_TYPE = "IEEE_REAL" START_BYTE = 1125 DESCRIPTION = " Combined uncertainty in B08S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 143 DATA_TYPE = "IEEE_REAL" START_BYTE = 1133 DESCRIPTION = " B08S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 144 DATA_TYPE = "IEEE_REAL" START_BYTE = 1141 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC144= 'Helium ' / assumed particle species ELO144 = 1.0 / Minimum channel energy keV ELOU144= 0.0 / Uncertainty in minimum channel energy (keV) EHI144 = 2.0 / Maximum channel energy keV EHIU144= 0.0 / Uncertainty in maximum channel energy (keV) GF144 = 1.0 / Geometry Factor (cm^2 sr) GFU144 = 0.0 / Uncertainty in the Geometry Factor EFF144 = 1.0 / Efficiency (geometric mean) EFFU144= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 145 DATA_TYPE = "IEEE_REAL" START_BYTE = 1149 DESCRIPTION = " Combined uncertainty in B08S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 146 DATA_TYPE = "IEEE_REAL" START_BYTE = 1157 DESCRIPTION = " B08S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 147 DATA_TYPE = "IEEE_REAL" START_BYTE = 1165 DESCRIPTION = " Helium ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC147= 'Helium ' / assumed particle species ELO147 = 1.0 / Minimum channel energy keV ELOU147= 0.0 / Uncertainty in minimum channel energy (keV) EHI147 = 2.0 / Maximum channel energy keV EHIU147= 0.0 / Uncertainty in maximum channel energy (keV) GF147 = 1.0 / Geometry Factor (cm^2 sr) GFU147 = 0.0 / Uncertainty in the Geometry Factor EFF147 = 1.0 / Efficiency (geometric mean) EFFU147= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B08S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 148 DATA_TYPE = "IEEE_REAL" START_BYTE = 1173 DESCRIPTION = " Combined uncertainty in B08S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 149 DATA_TYPE = "IEEE_REAL" START_BYTE = 1181 DESCRIPTION = " B09S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 150 DATA_TYPE = "IEEE_REAL" START_BYTE = 1189 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC150= 'Oxygen ' / assumed particle species ELO150 = 1.0 / Minimum channel energy keV ELOU150= 0.0 / Uncertainty in minimum channel energy (keV) EHI150 = 2.0 / Maximum channel energy keV EHIU150= 0.0 / Uncertainty in maximum channel energy (keV) GF150 = 1.0 / Geometry Factor (cm^2 sr) GFU150 = 0.0 / Uncertainty in the Geometry Factor EFF150 = 1.0 / Efficiency (geometric mean) EFFU150= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 151 DATA_TYPE = "IEEE_REAL" START_BYTE = 1197 DESCRIPTION = " Combined uncertainty in B09S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 152 DATA_TYPE = "IEEE_REAL" START_BYTE = 1205 DESCRIPTION = " B09S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 153 DATA_TYPE = "IEEE_REAL" START_BYTE = 1213 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC153= 'Oxygen ' / assumed particle species ELO153 = 1.0 / Minimum channel energy keV ELOU153= 0.0 / Uncertainty in minimum channel energy (keV) EHI153 = 2.0 / Maximum channel energy keV EHIU153= 0.0 / Uncertainty in maximum channel energy (keV) GF153 = 1.0 / Geometry Factor (cm^2 sr) GFU153 = 0.0 / Uncertainty in the Geometry Factor EFF153 = 1.0 / Efficiency (geometric mean) EFFU153= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 154 DATA_TYPE = "IEEE_REAL" START_BYTE = 1221 DESCRIPTION = " Combined uncertainty in B09S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 155 DATA_TYPE = "IEEE_REAL" START_BYTE = 1229 DESCRIPTION = " B09S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 156 DATA_TYPE = "IEEE_REAL" START_BYTE = 1237 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC156= 'Oxygen ' / assumed particle species ELO156 = 1.0 / Minimum channel energy keV ELOU156= 0.0 / Uncertainty in minimum channel energy (keV) EHI156 = 2.0 / Maximum channel energy keV EHIU156= 0.0 / Uncertainty in maximum channel energy (keV) GF156 = 1.0 / Geometry Factor (cm^2 sr) GFU156 = 0.0 / Uncertainty in the Geometry Factor EFF156 = 1.0 / Efficiency (geometric mean) EFFU156= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 157 DATA_TYPE = "IEEE_REAL" START_BYTE = 1245 DESCRIPTION = " Combined uncertainty in B09S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 158 DATA_TYPE = "IEEE_REAL" START_BYTE = 1253 DESCRIPTION = " B09S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 159 DATA_TYPE = "IEEE_REAL" START_BYTE = 1261 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC159= 'Oxygen ' / assumed particle species ELO159 = 1.0 / Minimum channel energy keV ELOU159= 0.0 / Uncertainty in minimum channel energy (keV) EHI159 = 2.0 / Maximum channel energy keV EHIU159= 0.0 / Uncertainty in maximum channel energy (keV) GF159 = 1.0 / Geometry Factor (cm^2 sr) GFU159 = 0.0 / Uncertainty in the Geometry Factor EFF159 = 1.0 / Efficiency (geometric mean) EFFU159= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 160 DATA_TYPE = "IEEE_REAL" START_BYTE = 1269 DESCRIPTION = " Combined uncertainty in B09S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 161 DATA_TYPE = "IEEE_REAL" START_BYTE = 1277 DESCRIPTION = " B09S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 162 DATA_TYPE = "IEEE_REAL" START_BYTE = 1285 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC162= 'Oxygen ' / assumed particle species ELO162 = 1.0 / Minimum channel energy keV ELOU162= 0.0 / Uncertainty in minimum channel energy (keV) EHI162 = 2.0 / Maximum channel energy keV EHIU162= 0.0 / Uncertainty in maximum channel energy (keV) GF162 = 1.0 / Geometry Factor (cm^2 sr) GFU162 = 0.0 / Uncertainty in the Geometry Factor EFF162 = 1.0 / Efficiency (geometric mean) EFFU162= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 163 DATA_TYPE = "IEEE_REAL" START_BYTE = 1293 DESCRIPTION = " Combined uncertainty in B09S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 164 DATA_TYPE = "IEEE_REAL" START_BYTE = 1301 DESCRIPTION = " B09S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 165 DATA_TYPE = "IEEE_REAL" START_BYTE = 1309 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC165= 'Oxygen ' / assumed particle species ELO165 = 1.0 / Minimum channel energy keV ELOU165= 0.0 / Uncertainty in minimum channel energy (keV) EHI165 = 2.0 / Maximum channel energy keV EHIU165= 0.0 / Uncertainty in maximum channel energy (keV) GF165 = 1.0 / Geometry Factor (cm^2 sr) GFU165 = 0.0 / Uncertainty in the Geometry Factor EFF165 = 1.0 / Efficiency (geometric mean) EFFU165= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B09S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 166 DATA_TYPE = "IEEE_REAL" START_BYTE = 1317 DESCRIPTION = " Combined uncertainty in B09S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 167 DATA_TYPE = "IEEE_REAL" START_BYTE = 1325 DESCRIPTION = " B10S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 168 DATA_TYPE = "IEEE_REAL" START_BYTE = 1333 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC168= 'Oxygen ' / assumed particle species ELO168 = 1.0 / Minimum channel energy keV ELOU168= 0.0 / Uncertainty in minimum channel energy (keV) EHI168 = 2.0 / Maximum channel energy keV EHIU168= 0.0 / Uncertainty in maximum channel energy (keV) GF168 = 1.0 / Geometry Factor (cm^2 sr) GFU168 = 0.0 / Uncertainty in the Geometry Factor EFF168 = 1.0 / Efficiency (geometric mean) EFFU168= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 169 DATA_TYPE = "IEEE_REAL" START_BYTE = 1341 DESCRIPTION = " Combined uncertainty in B10S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 170 DATA_TYPE = "IEEE_REAL" START_BYTE = 1349 DESCRIPTION = " B10S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 171 DATA_TYPE = "IEEE_REAL" START_BYTE = 1357 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC171= 'Oxygen ' / assumed particle species ELO171 = 1.0 / Minimum channel energy keV ELOU171= 0.0 / Uncertainty in minimum channel energy (keV) EHI171 = 2.0 / Maximum channel energy keV EHIU171= 0.0 / Uncertainty in maximum channel energy (keV) GF171 = 1.0 / Geometry Factor (cm^2 sr) GFU171 = 0.0 / Uncertainty in the Geometry Factor EFF171 = 1.0 / Efficiency (geometric mean) EFFU171= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 172 DATA_TYPE = "IEEE_REAL" START_BYTE = 1365 DESCRIPTION = " Combined uncertainty in B10S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 173 DATA_TYPE = "IEEE_REAL" START_BYTE = 1373 DESCRIPTION = " B10S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 174 DATA_TYPE = "IEEE_REAL" START_BYTE = 1381 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC174= 'Oxygen ' / assumed particle species ELO174 = 1.0 / Minimum channel energy keV ELOU174= 0.0 / Uncertainty in minimum channel energy (keV) EHI174 = 2.0 / Maximum channel energy keV EHIU174= 0.0 / Uncertainty in maximum channel energy (keV) GF174 = 1.0 / Geometry Factor (cm^2 sr) GFU174 = 0.0 / Uncertainty in the Geometry Factor EFF174 = 1.0 / Efficiency (geometric mean) EFFU174= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 175 DATA_TYPE = "IEEE_REAL" START_BYTE = 1389 DESCRIPTION = " Combined uncertainty in B10S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 176 DATA_TYPE = "IEEE_REAL" START_BYTE = 1397 DESCRIPTION = " B10S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 177 DATA_TYPE = "IEEE_REAL" START_BYTE = 1405 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC177= 'Oxygen ' / assumed particle species ELO177 = 1.0 / Minimum channel energy keV ELOU177= 0.0 / Uncertainty in minimum channel energy (keV) EHI177 = 2.0 / Maximum channel energy keV EHIU177= 0.0 / Uncertainty in maximum channel energy (keV) GF177 = 1.0 / Geometry Factor (cm^2 sr) GFU177 = 0.0 / Uncertainty in the Geometry Factor EFF177 = 1.0 / Efficiency (geometric mean) EFFU177= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 178 DATA_TYPE = "IEEE_REAL" START_BYTE = 1413 DESCRIPTION = " Combined uncertainty in B10S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 179 DATA_TYPE = "IEEE_REAL" START_BYTE = 1421 DESCRIPTION = " B10S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 180 DATA_TYPE = "IEEE_REAL" START_BYTE = 1429 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC180= 'Oxygen ' / assumed particle species ELO180 = 1.0 / Minimum channel energy keV ELOU180= 0.0 / Uncertainty in minimum channel energy (keV) EHI180 = 2.0 / Maximum channel energy keV EHIU180= 0.0 / Uncertainty in maximum channel energy (keV) GF180 = 1.0 / Geometry Factor (cm^2 sr) GFU180 = 0.0 / Uncertainty in the Geometry Factor EFF180 = 1.0 / Efficiency (geometric mean) EFFU180= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 181 DATA_TYPE = "IEEE_REAL" START_BYTE = 1437 DESCRIPTION = " Combined uncertainty in B10S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 182 DATA_TYPE = "IEEE_REAL" START_BYTE = 1445 DESCRIPTION = " B10S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 183 DATA_TYPE = "IEEE_REAL" START_BYTE = 1453 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC183= 'Oxygen ' / assumed particle species ELO183 = 1.0 / Minimum channel energy keV ELOU183= 0.0 / Uncertainty in minimum channel energy (keV) EHI183 = 2.0 / Maximum channel energy keV EHIU183= 0.0 / Uncertainty in maximum channel energy (keV) GF183 = 1.0 / Geometry Factor (cm^2 sr) GFU183 = 0.0 / Uncertainty in the Geometry Factor EFF183 = 1.0 / Efficiency (geometric mean) EFFU183= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B10S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 184 DATA_TYPE = "IEEE_REAL" START_BYTE = 1461 DESCRIPTION = " Combined uncertainty in B10S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 185 DATA_TYPE = "IEEE_REAL" START_BYTE = 1469 DESCRIPTION = " B11S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 186 DATA_TYPE = "IEEE_REAL" START_BYTE = 1477 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC186= 'Oxygen ' / assumed particle species ELO186 = 1.0 / Minimum channel energy keV ELOU186= 0.0 / Uncertainty in minimum channel energy (keV) EHI186 = 2.0 / Maximum channel energy keV EHIU186= 0.0 / Uncertainty in maximum channel energy (keV) GF186 = 1.0 / Geometry Factor (cm^2 sr) GFU186 = 0.0 / Uncertainty in the Geometry Factor EFF186 = 1.0 / Efficiency (geometric mean) EFFU186= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 187 DATA_TYPE = "IEEE_REAL" START_BYTE = 1485 DESCRIPTION = " Combined uncertainty in B11S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 188 DATA_TYPE = "IEEE_REAL" START_BYTE = 1493 DESCRIPTION = " B11S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 189 DATA_TYPE = "IEEE_REAL" START_BYTE = 1501 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC189= 'Oxygen ' / assumed particle species ELO189 = 1.0 / Minimum channel energy keV ELOU189= 0.0 / Uncertainty in minimum channel energy (keV) EHI189 = 2.0 / Maximum channel energy keV EHIU189= 0.0 / Uncertainty in maximum channel energy (keV) GF189 = 1.0 / Geometry Factor (cm^2 sr) GFU189 = 0.0 / Uncertainty in the Geometry Factor EFF189 = 1.0 / Efficiency (geometric mean) EFFU189= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 190 DATA_TYPE = "IEEE_REAL" START_BYTE = 1509 DESCRIPTION = " Combined uncertainty in B11S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 191 DATA_TYPE = "IEEE_REAL" START_BYTE = 1517 DESCRIPTION = " B11S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 192 DATA_TYPE = "IEEE_REAL" START_BYTE = 1525 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC192= 'Oxygen ' / assumed particle species ELO192 = 1.0 / Minimum channel energy keV ELOU192= 0.0 / Uncertainty in minimum channel energy (keV) EHI192 = 2.0 / Maximum channel energy keV EHIU192= 0.0 / Uncertainty in maximum channel energy (keV) GF192 = 1.0 / Geometry Factor (cm^2 sr) GFU192 = 0.0 / Uncertainty in the Geometry Factor EFF192 = 1.0 / Efficiency (geometric mean) EFFU192= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 193 DATA_TYPE = "IEEE_REAL" START_BYTE = 1533 DESCRIPTION = " Combined uncertainty in B11S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 194 DATA_TYPE = "IEEE_REAL" START_BYTE = 1541 DESCRIPTION = " B11S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 195 DATA_TYPE = "IEEE_REAL" START_BYTE = 1549 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC195= 'Oxygen ' / assumed particle species ELO195 = 1.0 / Minimum channel energy keV ELOU195= 0.0 / Uncertainty in minimum channel energy (keV) EHI195 = 2.0 / Maximum channel energy keV EHIU195= 0.0 / Uncertainty in maximum channel energy (keV) GF195 = 1.0 / Geometry Factor (cm^2 sr) GFU195 = 0.0 / Uncertainty in the Geometry Factor EFF195 = 1.0 / Efficiency (geometric mean) EFFU195= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 196 DATA_TYPE = "IEEE_REAL" START_BYTE = 1557 DESCRIPTION = " Combined uncertainty in B11S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 197 DATA_TYPE = "IEEE_REAL" START_BYTE = 1565 DESCRIPTION = " B11S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 198 DATA_TYPE = "IEEE_REAL" START_BYTE = 1573 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC198= 'Oxygen ' / assumed particle species ELO198 = 1.0 / Minimum channel energy keV ELOU198= 0.0 / Uncertainty in minimum channel energy (keV) EHI198 = 2.0 / Maximum channel energy keV EHIU198= 0.0 / Uncertainty in maximum channel energy (keV) GF198 = 1.0 / Geometry Factor (cm^2 sr) GFU198 = 0.0 / Uncertainty in the Geometry Factor EFF198 = 1.0 / Efficiency (geometric mean) EFFU198= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 199 DATA_TYPE = "IEEE_REAL" START_BYTE = 1581 DESCRIPTION = " Combined uncertainty in B11S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 200 DATA_TYPE = "IEEE_REAL" START_BYTE = 1589 DESCRIPTION = " B11S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 201 DATA_TYPE = "IEEE_REAL" START_BYTE = 1597 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC201= 'Oxygen ' / assumed particle species ELO201 = 1.0 / Minimum channel energy keV ELOU201= 0.0 / Uncertainty in minimum channel energy (keV) EHI201 = 2.0 / Maximum channel energy keV EHIU201= 0.0 / Uncertainty in maximum channel energy (keV) GF201 = 1.0 / Geometry Factor (cm^2 sr) GFU201 = 0.0 / Uncertainty in the Geometry Factor EFF201 = 1.0 / Efficiency (geometric mean) EFFU201= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B11S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 202 DATA_TYPE = "IEEE_REAL" START_BYTE = 1605 DESCRIPTION = " Combined uncertainty in B11S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 203 DATA_TYPE = "IEEE_REAL" START_BYTE = 1613 DESCRIPTION = " B12S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 204 DATA_TYPE = "IEEE_REAL" START_BYTE = 1621 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC204= 'Oxygen ' / assumed particle species ELO204 = 1.0 / Minimum channel energy keV ELOU204= 0.0 / Uncertainty in minimum channel energy (keV) EHI204 = 2.0 / Maximum channel energy keV EHIU204= 0.0 / Uncertainty in maximum channel energy (keV) GF204 = 1.0 / Geometry Factor (cm^2 sr) GFU204 = 0.0 / Uncertainty in the Geometry Factor EFF204 = 1.0 / Efficiency (geometric mean) EFFU204= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 205 DATA_TYPE = "IEEE_REAL" START_BYTE = 1629 DESCRIPTION = " Combined uncertainty in B12S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 206 DATA_TYPE = "IEEE_REAL" START_BYTE = 1637 DESCRIPTION = " B12S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 207 DATA_TYPE = "IEEE_REAL" START_BYTE = 1645 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC207= 'Oxygen ' / assumed particle species ELO207 = 1.0 / Minimum channel energy keV ELOU207= 0.0 / Uncertainty in minimum channel energy (keV) EHI207 = 2.0 / Maximum channel energy keV EHIU207= 0.0 / Uncertainty in maximum channel energy (keV) GF207 = 1.0 / Geometry Factor (cm^2 sr) GFU207 = 0.0 / Uncertainty in the Geometry Factor EFF207 = 1.0 / Efficiency (geometric mean) EFFU207= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 208 DATA_TYPE = "IEEE_REAL" START_BYTE = 1653 DESCRIPTION = " Combined uncertainty in B12S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 209 DATA_TYPE = "IEEE_REAL" START_BYTE = 1661 DESCRIPTION = " B12S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 210 DATA_TYPE = "IEEE_REAL" START_BYTE = 1669 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC210= 'Oxygen ' / assumed particle species ELO210 = 1.0 / Minimum channel energy keV ELOU210= 0.0 / Uncertainty in minimum channel energy (keV) EHI210 = 2.0 / Maximum channel energy keV EHIU210= 0.0 / Uncertainty in maximum channel energy (keV) GF210 = 1.0 / Geometry Factor (cm^2 sr) GFU210 = 0.0 / Uncertainty in the Geometry Factor EFF210 = 1.0 / Efficiency (geometric mean) EFFU210= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 211 DATA_TYPE = "IEEE_REAL" START_BYTE = 1677 DESCRIPTION = " Combined uncertainty in B12S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 212 DATA_TYPE = "IEEE_REAL" START_BYTE = 1685 DESCRIPTION = " B12S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 213 DATA_TYPE = "IEEE_REAL" START_BYTE = 1693 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC213= 'Oxygen ' / assumed particle species ELO213 = 1.0 / Minimum channel energy keV ELOU213= 0.0 / Uncertainty in minimum channel energy (keV) EHI213 = 2.0 / Maximum channel energy keV EHIU213= 0.0 / Uncertainty in maximum channel energy (keV) GF213 = 1.0 / Geometry Factor (cm^2 sr) GFU213 = 0.0 / Uncertainty in the Geometry Factor EFF213 = 1.0 / Efficiency (geometric mean) EFFU213= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 214 DATA_TYPE = "IEEE_REAL" START_BYTE = 1701 DESCRIPTION = " Combined uncertainty in B12S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 215 DATA_TYPE = "IEEE_REAL" START_BYTE = 1709 DESCRIPTION = " B12S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 216 DATA_TYPE = "IEEE_REAL" START_BYTE = 1717 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC216= 'Oxygen ' / assumed particle species ELO216 = 1.0 / Minimum channel energy keV ELOU216= 0.0 / Uncertainty in minimum channel energy (keV) EHI216 = 2.0 / Maximum channel energy keV EHIU216= 0.0 / Uncertainty in maximum channel energy (keV) GF216 = 1.0 / Geometry Factor (cm^2 sr) GFU216 = 0.0 / Uncertainty in the Geometry Factor EFF216 = 1.0 / Efficiency (geometric mean) EFFU216= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 217 DATA_TYPE = "IEEE_REAL" START_BYTE = 1725 DESCRIPTION = " Combined uncertainty in B12S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 218 DATA_TYPE = "IEEE_REAL" START_BYTE = 1733 DESCRIPTION = " B12S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 219 DATA_TYPE = "IEEE_REAL" START_BYTE = 1741 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC219= 'Oxygen ' / assumed particle species ELO219 = 1.0 / Minimum channel energy keV ELOU219= 0.0 / Uncertainty in minimum channel energy (keV) EHI219 = 2.0 / Maximum channel energy keV EHIU219= 0.0 / Uncertainty in maximum channel energy (keV) GF219 = 1.0 / Geometry Factor (cm^2 sr) GFU219 = 0.0 / Uncertainty in the Geometry Factor EFF219 = 1.0 / Efficiency (geometric mean) EFFU219= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B12S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 220 DATA_TYPE = "IEEE_REAL" START_BYTE = 1749 DESCRIPTION = " Combined uncertainty in B12S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 221 DATA_TYPE = "IEEE_REAL" START_BYTE = 1757 DESCRIPTION = " B13S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 222 DATA_TYPE = "IEEE_REAL" START_BYTE = 1765 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC222= 'Sulfur ' / assumed particle species ELO222 = 1.0 / Minimum channel energy keV ELOU222= 0.0 / Uncertainty in minimum channel energy (keV) EHI222 = 2.0 / Maximum channel energy keV EHIU222= 0.0 / Uncertainty in maximum channel energy (keV) GF222 = 1.0 / Geometry Factor (cm^2 sr) GFU222 = 0.0 / Uncertainty in the Geometry Factor EFF222 = 1.0 / Efficiency (geometric mean) EFFU222= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 223 DATA_TYPE = "IEEE_REAL" START_BYTE = 1773 DESCRIPTION = " Combined uncertainty in B13S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 224 DATA_TYPE = "IEEE_REAL" START_BYTE = 1781 DESCRIPTION = " B13S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 225 DATA_TYPE = "IEEE_REAL" START_BYTE = 1789 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC225= 'Sulfur ' / assumed particle species ELO225 = 1.0 / Minimum channel energy keV ELOU225= 0.0 / Uncertainty in minimum channel energy (keV) EHI225 = 2.0 / Maximum channel energy keV EHIU225= 0.0 / Uncertainty in maximum channel energy (keV) GF225 = 1.0 / Geometry Factor (cm^2 sr) GFU225 = 0.0 / Uncertainty in the Geometry Factor EFF225 = 1.0 / Efficiency (geometric mean) EFFU225= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 226 DATA_TYPE = "IEEE_REAL" START_BYTE = 1797 DESCRIPTION = " Combined uncertainty in B13S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 227 DATA_TYPE = "IEEE_REAL" START_BYTE = 1805 DESCRIPTION = " B13S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 228 DATA_TYPE = "IEEE_REAL" START_BYTE = 1813 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC228= 'Sulfur ' / assumed particle species ELO228 = 1.0 / Minimum channel energy keV ELOU228= 0.0 / Uncertainty in minimum channel energy (keV) EHI228 = 2.0 / Maximum channel energy keV EHIU228= 0.0 / Uncertainty in maximum channel energy (keV) GF228 = 1.0 / Geometry Factor (cm^2 sr) GFU228 = 0.0 / Uncertainty in the Geometry Factor EFF228 = 1.0 / Efficiency (geometric mean) EFFU228= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 229 DATA_TYPE = "IEEE_REAL" START_BYTE = 1821 DESCRIPTION = " Combined uncertainty in B13S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 230 DATA_TYPE = "IEEE_REAL" START_BYTE = 1829 DESCRIPTION = " B13S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 231 DATA_TYPE = "IEEE_REAL" START_BYTE = 1837 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC231= 'Sulfur ' / assumed particle species ELO231 = 1.0 / Minimum channel energy keV ELOU231= 0.0 / Uncertainty in minimum channel energy (keV) EHI231 = 2.0 / Maximum channel energy keV EHIU231= 0.0 / Uncertainty in maximum channel energy (keV) GF231 = 1.0 / Geometry Factor (cm^2 sr) GFU231 = 0.0 / Uncertainty in the Geometry Factor EFF231 = 1.0 / Efficiency (geometric mean) EFFU231= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 232 DATA_TYPE = "IEEE_REAL" START_BYTE = 1845 DESCRIPTION = " Combined uncertainty in B13S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 233 DATA_TYPE = "IEEE_REAL" START_BYTE = 1853 DESCRIPTION = " B13S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 234 DATA_TYPE = "IEEE_REAL" START_BYTE = 1861 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC234= 'Sulfur ' / assumed particle species ELO234 = 1.0 / Minimum channel energy keV ELOU234= 0.0 / Uncertainty in minimum channel energy (keV) EHI234 = 2.0 / Maximum channel energy keV EHIU234= 0.0 / Uncertainty in maximum channel energy (keV) GF234 = 1.0 / Geometry Factor (cm^2 sr) GFU234 = 0.0 / Uncertainty in the Geometry Factor EFF234 = 1.0 / Efficiency (geometric mean) EFFU234= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 235 DATA_TYPE = "IEEE_REAL" START_BYTE = 1869 DESCRIPTION = " Combined uncertainty in B13S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 236 DATA_TYPE = "IEEE_REAL" START_BYTE = 1877 DESCRIPTION = " B13S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 237 DATA_TYPE = "IEEE_REAL" START_BYTE = 1885 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC237= 'Sulfur ' / assumed particle species ELO237 = 1.0 / Minimum channel energy keV ELOU237= 0.0 / Uncertainty in minimum channel energy (keV) EHI237 = 2.0 / Maximum channel energy keV EHIU237= 0.0 / Uncertainty in maximum channel energy (keV) GF237 = 1.0 / Geometry Factor (cm^2 sr) GFU237 = 0.0 / Uncertainty in the Geometry Factor EFF237 = 1.0 / Efficiency (geometric mean) EFFU237= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B13S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 238 DATA_TYPE = "IEEE_REAL" START_BYTE = 1893 DESCRIPTION = " Combined uncertainty in B13S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 239 DATA_TYPE = "IEEE_REAL" START_BYTE = 1901 DESCRIPTION = " B14S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 240 DATA_TYPE = "IEEE_REAL" START_BYTE = 1909 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC240= 'Ions ' / assumed particle species ELO240 = 1.0 / Minimum channel energy keV ELOU240= 0.0 / Uncertainty in minimum channel energy (keV) EHI240 = 2.0 / Maximum channel energy keV EHIU240= 0.0 / Uncertainty in maximum channel energy (keV) GF240 = 1.0 / Geometry Factor (cm^2 sr) GFU240 = 0.0 / Uncertainty in the Geometry Factor EFF240 = 1.0 / Efficiency (geometric mean) EFFU240= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 241 DATA_TYPE = "IEEE_REAL" START_BYTE = 1917 DESCRIPTION = " Combined uncertainty in B14S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 242 DATA_TYPE = "IEEE_REAL" START_BYTE = 1925 DESCRIPTION = " B14S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 243 DATA_TYPE = "IEEE_REAL" START_BYTE = 1933 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC243= 'Ions ' / assumed particle species ELO243 = 1.0 / Minimum channel energy keV ELOU243= 0.0 / Uncertainty in minimum channel energy (keV) EHI243 = 2.0 / Maximum channel energy keV EHIU243= 0.0 / Uncertainty in maximum channel energy (keV) GF243 = 1.0 / Geometry Factor (cm^2 sr) GFU243 = 0.0 / Uncertainty in the Geometry Factor EFF243 = 1.0 / Efficiency (geometric mean) EFFU243= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 244 DATA_TYPE = "IEEE_REAL" START_BYTE = 1941 DESCRIPTION = " Combined uncertainty in B14S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 245 DATA_TYPE = "IEEE_REAL" START_BYTE = 1949 DESCRIPTION = " B14S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 246 DATA_TYPE = "IEEE_REAL" START_BYTE = 1957 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC246= 'Ions ' / assumed particle species ELO246 = 1.0 / Minimum channel energy keV ELOU246= 0.0 / Uncertainty in minimum channel energy (keV) EHI246 = 2.0 / Maximum channel energy keV EHIU246= 0.0 / Uncertainty in maximum channel energy (keV) GF246 = 1.0 / Geometry Factor (cm^2 sr) GFU246 = 0.0 / Uncertainty in the Geometry Factor EFF246 = 1.0 / Efficiency (geometric mean) EFFU246= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 247 DATA_TYPE = "IEEE_REAL" START_BYTE = 1965 DESCRIPTION = " Combined uncertainty in B14S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 248 DATA_TYPE = "IEEE_REAL" START_BYTE = 1973 DESCRIPTION = " B14S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 249 DATA_TYPE = "IEEE_REAL" START_BYTE = 1981 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC249= 'Ions ' / assumed particle species ELO249 = 1.0 / Minimum channel energy keV ELOU249= 0.0 / Uncertainty in minimum channel energy (keV) EHI249 = 2.0 / Maximum channel energy keV EHIU249= 0.0 / Uncertainty in maximum channel energy (keV) GF249 = 1.0 / Geometry Factor (cm^2 sr) GFU249 = 0.0 / Uncertainty in the Geometry Factor EFF249 = 1.0 / Efficiency (geometric mean) EFFU249= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 250 DATA_TYPE = "IEEE_REAL" START_BYTE = 1989 DESCRIPTION = " Combined uncertainty in B14S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 251 DATA_TYPE = "IEEE_REAL" START_BYTE = 1997 DESCRIPTION = " B14S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 252 DATA_TYPE = "IEEE_REAL" START_BYTE = 2005 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC252= 'Ions ' / assumed particle species ELO252 = 1.0 / Minimum channel energy keV ELOU252= 0.0 / Uncertainty in minimum channel energy (keV) EHI252 = 2.0 / Maximum channel energy keV EHIU252= 0.0 / Uncertainty in maximum channel energy (keV) GF252 = 1.0 / Geometry Factor (cm^2 sr) GFU252 = 0.0 / Uncertainty in the Geometry Factor EFF252 = 1.0 / Efficiency (geometric mean) EFFU252= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 253 DATA_TYPE = "IEEE_REAL" START_BYTE = 2013 DESCRIPTION = " Combined uncertainty in B14S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 254 DATA_TYPE = "IEEE_REAL" START_BYTE = 2021 DESCRIPTION = " B14S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 255 DATA_TYPE = "IEEE_REAL" START_BYTE = 2029 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC255= 'Ions ' / assumed particle species ELO255 = 1.0 / Minimum channel energy keV ELOU255= 0.0 / Uncertainty in minimum channel energy (keV) EHI255 = 2.0 / Maximum channel energy keV EHIU255= 0.0 / Uncertainty in maximum channel energy (keV) GF255 = 1.0 / Geometry Factor (cm^2 sr) GFU255 = 0.0 / Uncertainty in the Geometry Factor EFF255 = 1.0 / Efficiency (geometric mean) EFFU255= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B14S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 256 DATA_TYPE = "IEEE_REAL" START_BYTE = 2037 DESCRIPTION = " Combined uncertainty in B14S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 257 DATA_TYPE = "IEEE_REAL" START_BYTE = 2045 DESCRIPTION = " B15S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 258 DATA_TYPE = "IEEE_REAL" START_BYTE = 2053 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC258= 'Oxygen ' / assumed particle species ELO258 = 1.0 / Minimum channel energy keV ELOU258= 0.0 / Uncertainty in minimum channel energy (keV) EHI258 = 2.0 / Maximum channel energy keV EHIU258= 0.0 / Uncertainty in maximum channel energy (keV) GF258 = 1.0 / Geometry Factor (cm^2 sr) GFU258 = 0.0 / Uncertainty in the Geometry Factor EFF258 = 1.0 / Efficiency (geometric mean) EFFU258= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 259 DATA_TYPE = "IEEE_REAL" START_BYTE = 2061 DESCRIPTION = " Combined uncertainty in B15S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 260 DATA_TYPE = "IEEE_REAL" START_BYTE = 2069 DESCRIPTION = " B15S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 261 DATA_TYPE = "IEEE_REAL" START_BYTE = 2077 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC261= 'Oxygen ' / assumed particle species ELO261 = 1.0 / Minimum channel energy keV ELOU261= 0.0 / Uncertainty in minimum channel energy (keV) EHI261 = 2.0 / Maximum channel energy keV EHIU261= 0.0 / Uncertainty in maximum channel energy (keV) GF261 = 1.0 / Geometry Factor (cm^2 sr) GFU261 = 0.0 / Uncertainty in the Geometry Factor EFF261 = 1.0 / Efficiency (geometric mean) EFFU261= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 262 DATA_TYPE = "IEEE_REAL" START_BYTE = 2085 DESCRIPTION = " Combined uncertainty in B15S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 263 DATA_TYPE = "IEEE_REAL" START_BYTE = 2093 DESCRIPTION = " B15S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 264 DATA_TYPE = "IEEE_REAL" START_BYTE = 2101 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC264= 'Oxygen ' / assumed particle species ELO264 = 1.0 / Minimum channel energy keV ELOU264= 0.0 / Uncertainty in minimum channel energy (keV) EHI264 = 2.0 / Maximum channel energy keV EHIU264= 0.0 / Uncertainty in maximum channel energy (keV) GF264 = 1.0 / Geometry Factor (cm^2 sr) GFU264 = 0.0 / Uncertainty in the Geometry Factor EFF264 = 1.0 / Efficiency (geometric mean) EFFU264= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 265 DATA_TYPE = "IEEE_REAL" START_BYTE = 2109 DESCRIPTION = " Combined uncertainty in B15S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 266 DATA_TYPE = "IEEE_REAL" START_BYTE = 2117 DESCRIPTION = " B15S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 267 DATA_TYPE = "IEEE_REAL" START_BYTE = 2125 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC267= 'Oxygen ' / assumed particle species ELO267 = 1.0 / Minimum channel energy keV ELOU267= 0.0 / Uncertainty in minimum channel energy (keV) EHI267 = 2.0 / Maximum channel energy keV EHIU267= 0.0 / Uncertainty in maximum channel energy (keV) GF267 = 1.0 / Geometry Factor (cm^2 sr) GFU267 = 0.0 / Uncertainty in the Geometry Factor EFF267 = 1.0 / Efficiency (geometric mean) EFFU267= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 268 DATA_TYPE = "IEEE_REAL" START_BYTE = 2133 DESCRIPTION = " Combined uncertainty in B15S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 269 DATA_TYPE = "IEEE_REAL" START_BYTE = 2141 DESCRIPTION = " B15S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 270 DATA_TYPE = "IEEE_REAL" START_BYTE = 2149 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC270= 'Oxygen ' / assumed particle species ELO270 = 1.0 / Minimum channel energy keV ELOU270= 0.0 / Uncertainty in minimum channel energy (keV) EHI270 = 2.0 / Maximum channel energy keV EHIU270= 0.0 / Uncertainty in maximum channel energy (keV) GF270 = 1.0 / Geometry Factor (cm^2 sr) GFU270 = 0.0 / Uncertainty in the Geometry Factor EFF270 = 1.0 / Efficiency (geometric mean) EFFU270= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 271 DATA_TYPE = "IEEE_REAL" START_BYTE = 2157 DESCRIPTION = " Combined uncertainty in B15S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 272 DATA_TYPE = "IEEE_REAL" START_BYTE = 2165 DESCRIPTION = " B15S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 273 DATA_TYPE = "IEEE_REAL" START_BYTE = 2173 DESCRIPTION = " Oxygen ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC273= 'Oxygen ' / assumed particle species ELO273 = 1.0 / Minimum channel energy keV ELOU273= 0.0 / Uncertainty in minimum channel energy (keV) EHI273 = 2.0 / Maximum channel energy keV EHIU273= 0.0 / Uncertainty in maximum channel energy (keV) GF273 = 1.0 / Geometry Factor (cm^2 sr) GFU273 = 0.0 / Uncertainty in the Geometry Factor EFF273 = 1.0 / Efficiency (geometric mean) EFFU273= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B15S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 274 DATA_TYPE = "IEEE_REAL" START_BYTE = 2181 DESCRIPTION = " Combined uncertainty in B15S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 275 DATA_TYPE = "IEEE_REAL" START_BYTE = 2189 DESCRIPTION = " B16S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 276 DATA_TYPE = "IEEE_REAL" START_BYTE = 2197 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC276= 'Sulfur ' / assumed particle species ELO276 = 1.0 / Minimum channel energy keV ELOU276= 0.0 / Uncertainty in minimum channel energy (keV) EHI276 = 2.0 / Maximum channel energy keV EHIU276= 0.0 / Uncertainty in maximum channel energy (keV) GF276 = 1.0 / Geometry Factor (cm^2 sr) GFU276 = 0.0 / Uncertainty in the Geometry Factor EFF276 = 1.0 / Efficiency (geometric mean) EFFU276= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 277 DATA_TYPE = "IEEE_REAL" START_BYTE = 2205 DESCRIPTION = " Combined uncertainty in B16S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 278 DATA_TYPE = "IEEE_REAL" START_BYTE = 2213 DESCRIPTION = " B16S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 279 DATA_TYPE = "IEEE_REAL" START_BYTE = 2221 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC279= 'Sulfur ' / assumed particle species ELO279 = 1.0 / Minimum channel energy keV ELOU279= 0.0 / Uncertainty in minimum channel energy (keV) EHI279 = 2.0 / Maximum channel energy keV EHIU279= 0.0 / Uncertainty in maximum channel energy (keV) GF279 = 1.0 / Geometry Factor (cm^2 sr) GFU279 = 0.0 / Uncertainty in the Geometry Factor EFF279 = 1.0 / Efficiency (geometric mean) EFFU279= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 280 DATA_TYPE = "IEEE_REAL" START_BYTE = 2229 DESCRIPTION = " Combined uncertainty in B16S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 281 DATA_TYPE = "IEEE_REAL" START_BYTE = 2237 DESCRIPTION = " B16S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 282 DATA_TYPE = "IEEE_REAL" START_BYTE = 2245 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC282= 'Sulfur ' / assumed particle species ELO282 = 1.0 / Minimum channel energy keV ELOU282= 0.0 / Uncertainty in minimum channel energy (keV) EHI282 = 2.0 / Maximum channel energy keV EHIU282= 0.0 / Uncertainty in maximum channel energy (keV) GF282 = 1.0 / Geometry Factor (cm^2 sr) GFU282 = 0.0 / Uncertainty in the Geometry Factor EFF282 = 1.0 / Efficiency (geometric mean) EFFU282= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 283 DATA_TYPE = "IEEE_REAL" START_BYTE = 2253 DESCRIPTION = " Combined uncertainty in B16S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 284 DATA_TYPE = "IEEE_REAL" START_BYTE = 2261 DESCRIPTION = " B16S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 285 DATA_TYPE = "IEEE_REAL" START_BYTE = 2269 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC285= 'Sulfur ' / assumed particle species ELO285 = 1.0 / Minimum channel energy keV ELOU285= 0.0 / Uncertainty in minimum channel energy (keV) EHI285 = 2.0 / Maximum channel energy keV EHIU285= 0.0 / Uncertainty in maximum channel energy (keV) GF285 = 1.0 / Geometry Factor (cm^2 sr) GFU285 = 0.0 / Uncertainty in the Geometry Factor EFF285 = 1.0 / Efficiency (geometric mean) EFFU285= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 286 DATA_TYPE = "IEEE_REAL" START_BYTE = 2277 DESCRIPTION = " Combined uncertainty in B16S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 287 DATA_TYPE = "IEEE_REAL" START_BYTE = 2285 DESCRIPTION = " B16S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 288 DATA_TYPE = "IEEE_REAL" START_BYTE = 2293 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC288= 'Sulfur ' / assumed particle species ELO288 = 1.0 / Minimum channel energy keV ELOU288= 0.0 / Uncertainty in minimum channel energy (keV) EHI288 = 2.0 / Maximum channel energy keV EHIU288= 0.0 / Uncertainty in maximum channel energy (keV) GF288 = 1.0 / Geometry Factor (cm^2 sr) GFU288 = 0.0 / Uncertainty in the Geometry Factor EFF288 = 1.0 / Efficiency (geometric mean) EFFU288= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 289 DATA_TYPE = "IEEE_REAL" START_BYTE = 2301 DESCRIPTION = " Combined uncertainty in B16S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 290 DATA_TYPE = "IEEE_REAL" START_BYTE = 2309 DESCRIPTION = " B16S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 291 DATA_TYPE = "IEEE_REAL" START_BYTE = 2317 DESCRIPTION = " Sulfur ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC291= 'Sulfur ' / assumed particle species ELO291 = 1.0 / Minimum channel energy keV ELOU291= 0.0 / Uncertainty in minimum channel energy (keV) EHI291 = 2.0 / Maximum channel energy keV EHIU291= 0.0 / Uncertainty in maximum channel energy (keV) GF291 = 1.0 / Geometry Factor (cm^2 sr) GFU291 = 0.0 / Uncertainty in the Geometry Factor EFF291 = 1.0 / Efficiency (geometric mean) EFFU291= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B16S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 292 DATA_TYPE = "IEEE_REAL" START_BYTE = 2325 DESCRIPTION = " Combined uncertainty in B16S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 293 DATA_TYPE = "IEEE_REAL" START_BYTE = 2333 DESCRIPTION = " B17S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 294 DATA_TYPE = "IEEE_REAL" START_BYTE = 2341 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC294= 'Ions ' / assumed particle species ELO294 = 1.0 / Minimum channel energy keV ELOU294= 0.0 / Uncertainty in minimum channel energy (keV) EHI294 = 2.0 / Maximum channel energy keV EHIU294= 0.0 / Uncertainty in maximum channel energy (keV) GF294 = 1.0 / Geometry Factor (cm^2 sr) GFU294 = 0.0 / Uncertainty in the Geometry Factor EFF294 = 1.0 / Efficiency (geometric mean) EFFU294= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 295 DATA_TYPE = "IEEE_REAL" START_BYTE = 2349 DESCRIPTION = " Combined uncertainty in B17S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S01CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 296 DATA_TYPE = "IEEE_REAL" START_BYTE = 2357 DESCRIPTION = " B17S01Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S01FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 297 DATA_TYPE = "IEEE_REAL" START_BYTE = 2365 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 1 Additional calibration information: SPEC297= 'Ions ' / assumed particle species ELO297 = 1.0 / Minimum channel energy keV ELOU297= 0.0 / Uncertainty in minimum channel energy (keV) EHI297 = 2.0 / Maximum channel energy keV EHIU297= 0.0 / Uncertainty in maximum channel energy (keV) GF297 = 1.0 / Geometry Factor (cm^2 sr) GFU297 = 0.0 / Uncertainty in the Geometry Factor EFF297 = 1.0 / Efficiency (geometric mean) EFFU297= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S01UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 298 DATA_TYPE = "IEEE_REAL" START_BYTE = 2373 DESCRIPTION = " Combined uncertainty in B17S01 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 299 DATA_TYPE = "IEEE_REAL" START_BYTE = 2381 DESCRIPTION = " B17S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 300 DATA_TYPE = "IEEE_REAL" START_BYTE = 2389 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC300= 'Ions ' / assumed particle species ELO300 = 1.0 / Minimum channel energy keV ELOU300= 0.0 / Uncertainty in minimum channel energy (keV) EHI300 = 2.0 / Maximum channel energy keV EHIU300= 0.0 / Uncertainty in maximum channel energy (keV) GF300 = 1.0 / Geometry Factor (cm^2 sr) GFU300 = 0.0 / Uncertainty in the Geometry Factor EFF300 = 1.0 / Efficiency (geometric mean) EFFU300= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 301 DATA_TYPE = "IEEE_REAL" START_BYTE = 2397 DESCRIPTION = " Combined uncertainty in B17S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S03CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 302 DATA_TYPE = "IEEE_REAL" START_BYTE = 2405 DESCRIPTION = " B17S03Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S03FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 303 DATA_TYPE = "IEEE_REAL" START_BYTE = 2413 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 3 Additional calibration information: SPEC303= 'Ions ' / assumed particle species ELO303 = 1.0 / Minimum channel energy keV ELOU303= 0.0 / Uncertainty in minimum channel energy (keV) EHI303 = 2.0 / Maximum channel energy keV EHIU303= 0.0 / Uncertainty in maximum channel energy (keV) GF303 = 1.0 / Geometry Factor (cm^2 sr) GFU303 = 0.0 / Uncertainty in the Geometry Factor EFF303 = 1.0 / Efficiency (geometric mean) EFFU303= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S03UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 304 DATA_TYPE = "IEEE_REAL" START_BYTE = 2421 DESCRIPTION = " Combined uncertainty in B17S03 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S04CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 305 DATA_TYPE = "IEEE_REAL" START_BYTE = 2429 DESCRIPTION = " B17S04Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S04FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 306 DATA_TYPE = "IEEE_REAL" START_BYTE = 2437 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 4 Additional calibration information: SPEC306= 'Ions ' / assumed particle species ELO306 = 1.0 / Minimum channel energy keV ELOU306= 0.0 / Uncertainty in minimum channel energy (keV) EHI306 = 2.0 / Maximum channel energy keV EHIU306= 0.0 / Uncertainty in maximum channel energy (keV) GF306 = 1.0 / Geometry Factor (cm^2 sr) GFU306 = 0.0 / Uncertainty in the Geometry Factor EFF306 = 1.0 / Efficiency (geometric mean) EFFU306= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S04UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 307 DATA_TYPE = "IEEE_REAL" START_BYTE = 2445 DESCRIPTION = " Combined uncertainty in B17S04 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 308 DATA_TYPE = "IEEE_REAL" START_BYTE = 2453 DESCRIPTION = " B17S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 309 DATA_TYPE = "IEEE_REAL" START_BYTE = 2461 DESCRIPTION = " Ions ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC309= 'Ions ' / assumed particle species ELO309 = 1.0 / Minimum channel energy keV ELOU309= 0.0 / Uncertainty in minimum channel energy (keV) EHI309 = 2.0 / Maximum channel energy keV EHIU309= 0.0 / Uncertainty in maximum channel energy (keV) GF309 = 1.0 / Geometry Factor (cm^2 sr) GFU309 = 0.0 / Uncertainty in the Geometry Factor EFF309 = 1.0 / Efficiency (geometric mean) EFFU309= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "B17S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 310 DATA_TYPE = "IEEE_REAL" START_BYTE = 2469 DESCRIPTION = " Combined uncertainty in B17S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 311 DATA_TYPE = "IEEE_REAL" START_BYTE = 2477 DESCRIPTION = " R00S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 312 DATA_TYPE = "IEEE_REAL" START_BYTE = 2485 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC312= 'Electrons' / assumed particle species ELO312 = 1.0 / Minimum channel energy keV ELOU312= 0.0 / Uncertainty in minimum channel energy (keV) EHI312 = 2.0 / Maximum channel energy keV EHIU312= 0.0 / Uncertainty in maximum channel energy (keV) GF312 = 1.0 / Geometry Factor (cm^2 sr) GFU312 = 0.0 / Uncertainty in the Geometry Factor EFF312 = 1.0 / Efficiency (geometric mean) EFFU312= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 313 DATA_TYPE = "IEEE_REAL" START_BYTE = 2493 DESCRIPTION = " Combined uncertainty in R00S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 314 DATA_TYPE = "IEEE_REAL" START_BYTE = 2501 DESCRIPTION = " R00S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 315 DATA_TYPE = "IEEE_REAL" START_BYTE = 2509 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC315= 'Electrons' / assumed particle species ELO315 = 1.0 / Minimum channel energy keV ELOU315= 0.0 / Uncertainty in minimum channel energy (keV) EHI315 = 2.0 / Maximum channel energy keV EHIU315= 0.0 / Uncertainty in maximum channel energy (keV) GF315 = 1.0 / Geometry Factor (cm^2 sr) GFU315 = 0.0 / Uncertainty in the Geometry Factor EFF315 = 1.0 / Efficiency (geometric mean) EFFU315= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 316 DATA_TYPE = "IEEE_REAL" START_BYTE = 2517 DESCRIPTION = " Combined uncertainty in R00S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 317 DATA_TYPE = "IEEE_REAL" START_BYTE = 2525 DESCRIPTION = " R00S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 318 DATA_TYPE = "IEEE_REAL" START_BYTE = 2533 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC318= 'Electrons' / assumed particle species ELO318 = 1.0 / Minimum channel energy keV ELOU318= 0.0 / Uncertainty in minimum channel energy (keV) EHI318 = 2.0 / Maximum channel energy keV EHIU318= 0.0 / Uncertainty in maximum channel energy (keV) GF318 = 1.0 / Geometry Factor (cm^2 sr) GFU318 = 0.0 / Uncertainty in the Geometry Factor EFF318 = 1.0 / Efficiency (geometric mean) EFFU318= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R00S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 319 DATA_TYPE = "IEEE_REAL" START_BYTE = 2541 DESCRIPTION = " Combined uncertainty in R00S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 320 DATA_TYPE = "IEEE_REAL" START_BYTE = 2549 DESCRIPTION = " R01S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 321 DATA_TYPE = "IEEE_REAL" START_BYTE = 2557 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC321= 'Electrons' / assumed particle species ELO321 = 1.0 / Minimum channel energy keV ELOU321= 0.0 / Uncertainty in minimum channel energy (keV) EHI321 = 2.0 / Maximum channel energy keV EHIU321= 0.0 / Uncertainty in maximum channel energy (keV) GF321 = 1.0 / Geometry Factor (cm^2 sr) GFU321 = 0.0 / Uncertainty in the Geometry Factor EFF321 = 1.0 / Efficiency (geometric mean) EFFU321= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 322 DATA_TYPE = "IEEE_REAL" START_BYTE = 2565 DESCRIPTION = " Combined uncertainty in R01S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 323 DATA_TYPE = "IEEE_REAL" START_BYTE = 2573 DESCRIPTION = " R01S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 324 DATA_TYPE = "IEEE_REAL" START_BYTE = 2581 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC324= 'Electrons' / assumed particle species ELO324 = 1.0 / Minimum channel energy keV ELOU324= 0.0 / Uncertainty in minimum channel energy (keV) EHI324 = 2.0 / Maximum channel energy keV EHIU324= 0.0 / Uncertainty in maximum channel energy (keV) GF324 = 1.0 / Geometry Factor (cm^2 sr) GFU324 = 0.0 / Uncertainty in the Geometry Factor EFF324 = 1.0 / Efficiency (geometric mean) EFFU324= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 325 DATA_TYPE = "IEEE_REAL" START_BYTE = 2589 DESCRIPTION = " Combined uncertainty in R01S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 326 DATA_TYPE = "IEEE_REAL" START_BYTE = 2597 DESCRIPTION = " R01S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 327 DATA_TYPE = "IEEE_REAL" START_BYTE = 2605 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC327= 'Electrons' / assumed particle species ELO327 = 1.0 / Minimum channel energy keV ELOU327= 0.0 / Uncertainty in minimum channel energy (keV) EHI327 = 2.0 / Maximum channel energy keV EHIU327= 0.0 / Uncertainty in maximum channel energy (keV) GF327 = 1.0 / Geometry Factor (cm^2 sr) GFU327 = 0.0 / Uncertainty in the Geometry Factor EFF327 = 1.0 / Efficiency (geometric mean) EFFU327= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R01S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 328 DATA_TYPE = "IEEE_REAL" START_BYTE = 2613 DESCRIPTION = " Combined uncertainty in R01S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S00CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 329 DATA_TYPE = "IEEE_REAL" START_BYTE = 2621 DESCRIPTION = " R02S00Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S00FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 330 DATA_TYPE = "IEEE_REAL" START_BYTE = 2629 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 0 Additional calibration information: SPEC330= 'Electrons' / assumed particle species ELO330 = 1.0 / Minimum channel energy keV ELOU330= 0.0 / Uncertainty in minimum channel energy (keV) EHI330 = 2.0 / Maximum channel energy keV EHIU330= 0.0 / Uncertainty in maximum channel energy (keV) GF330 = 1.0 / Geometry Factor (cm^2 sr) GFU330 = 0.0 / Uncertainty in the Geometry Factor EFF330 = 1.0 / Efficiency (geometric mean) EFFU330= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S00UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 331 DATA_TYPE = "IEEE_REAL" START_BYTE = 2637 DESCRIPTION = " Combined uncertainty in R02S00 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S02CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 332 DATA_TYPE = "IEEE_REAL" START_BYTE = 2645 DESCRIPTION = " R02S02Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S02FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 333 DATA_TYPE = "IEEE_REAL" START_BYTE = 2653 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 2 Additional calibration information: SPEC333= 'Electrons' / assumed particle species ELO333 = 1.0 / Minimum channel energy keV ELOU333= 0.0 / Uncertainty in minimum channel energy (keV) EHI333 = 2.0 / Maximum channel energy keV EHIU333= 0.0 / Uncertainty in maximum channel energy (keV) GF333 = 1.0 / Geometry Factor (cm^2 sr) GFU333 = 0.0 / Uncertainty in the Geometry Factor EFF333 = 1.0 / Efficiency (geometric mean) EFFU333= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S02UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 334 DATA_TYPE = "IEEE_REAL" START_BYTE = 2661 DESCRIPTION = " Combined uncertainty in R02S02 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S05CPS" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 335 DATA_TYPE = "IEEE_REAL" START_BYTE = 2669 DESCRIPTION = " R02S05Rate: Counts per Second " UNIT = "counts/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S05FLUX" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 336 DATA_TYPE = "IEEE_REAL" START_BYTE = 2677 DESCRIPTION = " Electrons ( 1.00- 2.00) keV Sector: 5 Additional calibration information: SPEC336= 'Electrons' / assumed particle species ELO336 = 1.0 / Minimum channel energy keV ELOU336= 0.0 / Uncertainty in minimum channel energy (keV) EHI336 = 2.0 / Maximum channel energy keV EHIU336= 0.0 / Uncertainty in maximum channel energy (keV) GF336 = 1.0 / Geometry Factor (cm^2 sr) GFU336 = 0.0 / Uncertainty in the Geometry Factor EFF336 = 1.0 / Efficiency (geometric mean) EFFU336= 1.0 / Relative error in efficiency " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "R02S05UNC" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 337 DATA_TYPE = "IEEE_REAL" START_BYTE = 2685 DESCRIPTION = " Combined uncertainty in R02S05 " UNIT = "1/(cm^2 sr s keV)" END_OBJECT = COLUMN END_OBJECT = EXTENSION_FLUX_TABLE OBJECT = EXTENSION_PHA_ELECTRON_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 7 FITS EDU name: PHA_ELECTRON " END_OBJECT = EXTENSION_PHA_ELECTRON_HEADER OBJECT = EXTENSION_PHA_ELECTRON_TABLE INTERCHANGE_FORMAT = "BINARY" ROW_BYTES = 61 ROWS = 10137 COLUMNS = 7 DESCRIPTION = " FITS EDU number: 7 FITS EDU name: PHA_ELECTRON Electron (Energy only) PHA Events Additional information: YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! Additional calibration information: Calibration constants used to convert from counts/s to energies or TOFs: CAL_E0 = -62.0 / Deposited Energy = E0 + E1*Raw Energy CAL_E1 = 1.18 / Deposited Energy = E0 + E1*Raw Energy CAL_T0 = 2.7228 / Deposited TOF = T0 + T1*Raw TOF CAL_T1 = 0.3243 / Deposited TOF = T0 + T1*Raw TOF " OBJECT = COLUMN NAME = "ET" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 1 DATA_TYPE = "IEEE_REAL" START_BYTE = 1 DESCRIPTION = " Ephemeris Time TDB seconds past the J200 Epoch 01.January, 2000 12:00:00 UTC " UNIT = "Seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 2 DATA_TYPE = "IEEE_REAL" START_BYTE = 9 DESCRIPTION = " Fractional Year (UTC). Use ET for accuracy! " UNIT = "Years" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DAY_OF_YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 3 DATA_TYPE = "IEEE_REAL" START_BYTE = 17 DESCRIPTION = " Fractional Day of Year (UTC). Use ET for accur " UNIT = "Days" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Electron_Channel" BYTES = 2 ITEMS = 1 ITEM_BYTES = 2 COLUMN_NUMBER = 4 DATA_TYPE = "MSB_INTEGER" START_BYTE = 25 DESCRIPTION = " Detector Channel (0-2) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 5 DATA_TYPE = "IEEE_REAL" START_BYTE = 27 DESCRIPTION = " Energy deposited, solid state detector (keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Raw_Energy" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 6 DATA_TYPE = "IEEE_REAL" START_BYTE = 35 DESCRIPTION = " Energy deposited, solid state detector (ADU) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Rate_Box" BYTES = 23 ITEMS = 1 ITEM_BYTES = 23 COLUMN_NUMBER = 7 DATA_TYPE = "CHARACTER" START_BYTE = 39 DESCRIPTION = " 'Rate Box' species-energy classification " UNIT = "N/A" END_OBJECT = COLUMN END_OBJECT = EXTENSION_PHA_ELECTRON_TABLE OBJECT = EXTENSION_PHA_LOW_ION_HEADER BYTES = 2880 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 1 DESCRIPTION = " This is the FITS header for FITS EDU number: 8 FITS EDU name: PHA_LOW_ION " END_OBJECT = EXTENSION_PHA_LOW_ION_HEADER OBJECT = EXTENSION_PHA_LOW_ION_TABLE INTERCHANGE_FORMAT = "BINARY" ROW_BYTES = 45 ROWS = 26387 COLUMNS = 7 DESCRIPTION = " FITS EDU number: 8 FITS EDU name: PHA_LOW_ION Low Ion (TOF only present) PHA Events Additional information: YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! Additional calibration information: Calibration constants used to convert from counts/s to energies or TOFs: CAL_E0 = -62.0 / Deposited Energy = E0 + E1*Raw Energy CAL_E1 = 1.18 / Deposited Energy = E0 + E1*Raw Energy CAL_T0 = 2.7228 / Deposited TOF = T0 + T1*Raw TOF CAL_T1 = 0.3243 / Deposited TOF = T0 + T1*Raw TOF " OBJECT = COLUMN NAME = "ET" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 1 DATA_TYPE = "IEEE_REAL" START_BYTE = 1 DESCRIPTION = " Ephemeris Time TDB seconds past the J200 Epoch 01.January, 2000 12:00:00 UTC " UNIT = "Seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 2 DATA_TYPE = "IEEE_REAL" START_BYTE = 9 DESCRIPTION = " Fractional Year (UTC). Use ET for accuracy! " UNIT = "Years" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DAY_OF_YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 3 DATA_TYPE = "IEEE_REAL" START_BYTE = 17 DESCRIPTION = " Fractional Day of Year (UTC). Use ET for accur " UNIT = "Days" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Raw_TOF" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 4 DATA_TYPE = "IEEE_REAL" START_BYTE = 25 DESCRIPTION = " Time of Flight (ADU) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Speed" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 5 DATA_TYPE = "IEEE_REAL" START_BYTE = 29 DESCRIPTION = " Particle speed in the detector (km/s) " UNIT = "km/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Start_Anode" BYTES = 1 ITEMS = 1 ITEM_BYTES = 1 COLUMN_NUMBER = 6 DATA_TYPE = "MSB_UNSIGNED_INTEGER" START_BYTE = 37 DESCRIPTION = " Bits 0-5 are set if that start anode fired. " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TOF" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 7 DATA_TYPE = "IEEE_REAL" START_BYTE = 38 DESCRIPTION = " Time of Flight (ns) " UNIT = "ns" END_OBJECT = COLUMN END_OBJECT = EXTENSION_PHA_LOW_ION_TABLE OBJECT = EXTENSION_PHA_HIGH_ION_HEADER BYTES = 5760 HEADER_TYPE = "FITS" INTERCHANGE_FORMAT = "BINARY" RECORDS = 2 DESCRIPTION = " This is the FITS header for FITS EDU number: 9 FITS EDU name: PHA_HIGH_ION " END_OBJECT = EXTENSION_PHA_HIGH_ION_HEADER OBJECT = EXTENSION_PHA_HIGH_ION_TABLE INTERCHANGE_FORMAT = "BINARY" ROW_BYTES = 115 ROWS = 25 COLUMNS = 16 DESCRIPTION = " FITS EDU number: 9 FITS EDU name: PHA_HIGH_ION High Ion (Energy and TOF present) PHA Events Additional information: YEAR and DAY_OF_YEAR are for convenience only! Use ET for accuracy! Additional calibration information: Calibration constants used to convert from counts/s to energies or TOFs: CAL_E0 = -62.0 / Deposited Energy = E0 + E1*Raw Energy CAL_E1 = 1.18 / Deposited Energy = E0 + E1*Raw Energy CAL_T0 = 2.7228 / Deposited TOF = T0 + T1*Raw TOF CAL_T1 = 0.3243 / Deposited TOF = T0 + T1*Raw TOF CAL_H0 = 11.518083 / H_Incident_Energy = H0 + H1*E + H2*E^2 CAL_H1 = 0.996074 / H_Incident_Energy = H0 + H1*E + H2*E^2 CAL_H2 = -5.0E-6 / H_Incident_Energy = H0 + H1*E + H2*E^2 CAL_HE0 = 23.484961 / He_Incident_Energy = He0 + He1*E + He2*E^2 CAL_HE1 = 1.05741 / He_Incident_Energy = He0 + He1*E + He2*E^2 CAL_HE2 = -2.9E-5 / He_Incident_Energy = He0 + He1*E + He2*E^2 CAL_O0 = 66.667669 / O_Incident_Energy = O0 + O1*E + O2*E^2 CAL_O1 = 1.224952 / O_Incident_Energy = O0 + O1*E + O2*E^2 CAL_O2 = -6.5E-5 / O_Incident_Energy = O0 + O1*E + O2*E^2 CAL_S0 = 146.855074 / S_Incident_Energy = S0 + S1*E + S2*E^2 CAL_S1 = 1.432988 / S_Incident_Energy = S0 + S1*E + S2*E^2 CAL_S2 = -1.32E-4 / S_Incident_Energy = S0 + S1*E + S2*E^2 " OBJECT = COLUMN NAME = "ET" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 1 DATA_TYPE = "IEEE_REAL" START_BYTE = 1 DESCRIPTION = " Ephemeris Time TDB seconds past the J200 Epoch 01.January, 2000 12:00:00 UTC " UNIT = "Seconds" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 2 DATA_TYPE = "IEEE_REAL" START_BYTE = 9 DESCRIPTION = " Fractional Year (UTC). Use ET for accuracy! " UNIT = "Years" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "DAY_OF_YEAR" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 3 DATA_TYPE = "IEEE_REAL" START_BYTE = 17 DESCRIPTION = " Fractional Day of Year (UTC). Use ET for accur " UNIT = "Days" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 4 DATA_TYPE = "IEEE_REAL" START_BYTE = 25 DESCRIPTION = " Energy deposited, solid state detector (keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "H_Incident_Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 5 DATA_TYPE = "IEEE_REAL" START_BYTE = 33 DESCRIPTION = " Incident Energy if proton(keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "He_Incident_Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 6 DATA_TYPE = "IEEE_REAL" START_BYTE = 41 DESCRIPTION = " Incident Energy if alpha(keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Ion_Channel" BYTES = 2 ITEMS = 1 ITEM_BYTES = 2 COLUMN_NUMBER = 7 DATA_TYPE = "MSB_INTEGER" START_BYTE = 49 DESCRIPTION = " Detector Channel (0-8) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "O_Incident_Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 8 DATA_TYPE = "IEEE_REAL" START_BYTE = 51 DESCRIPTION = " Incident Energy if Oxygen(keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Rate_Normalized_Weight" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 9 DATA_TYPE = "IEEE_REAL" START_BYTE = 59 DESCRIPTION = " Equivalent counts using Rate-weighting " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Raw_Energy" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 10 DATA_TYPE = "IEEE_REAL" START_BYTE = 67 DESCRIPTION = " Energy deposited, solid state detector (ADU) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Raw_TOF" BYTES = 4 ITEMS = 1 ITEM_BYTES = 4 COLUMN_NUMBER = 11 DATA_TYPE = "IEEE_REAL" START_BYTE = 71 DESCRIPTION = " Time of Flight (ADU) " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "S_Incident_Energy" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 12 DATA_TYPE = "IEEE_REAL" START_BYTE = 75 DESCRIPTION = " Incident Energy if proton(keV) " UNIT = "keV" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Speed" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 13 DATA_TYPE = "IEEE_REAL" START_BYTE = 83 DESCRIPTION = " Particle speed in the detector (km/s) " UNIT = "km/s" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Start_Anode" BYTES = 1 ITEMS = 1 ITEM_BYTES = 1 COLUMN_NUMBER = 14 DATA_TYPE = "MSB_UNSIGNED_INTEGER" START_BYTE = 91 DESCRIPTION = " Bits 0-5 are set if that start anode fired. " UNIT = "N/A" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "TOF" BYTES = 8 ITEMS = 1 ITEM_BYTES = 8 COLUMN_NUMBER = 15 DATA_TYPE = "IEEE_REAL" START_BYTE = 92 DESCRIPTION = " Time of Flight (ns) " UNIT = "ns" END_OBJECT = COLUMN OBJECT = COLUMN NAME = "Rate_Box" BYTES = 16 ITEMS = 1 ITEM_BYTES = 16 COLUMN_NUMBER = 16 DATA_TYPE = "CHARACTER" START_BYTE = 100 DESCRIPTION = " 'Rate Box' species-energy classification " UNIT = "N/A" END_OBJECT = COLUMN END_OBJECT = EXTENSION_PHA_HIGH_ION_TABLE END